EA030875B1 - Compositions comprising a triazole compound - Google Patents

Abstract

The present invention relates to compositions comprising 1) as component I a compound selected from the following compounds I-1, I-3, I-4 and I-5: compound I-1 2-[2-chloro-4-(4-chlorophenoxy)phenyl]-1-(1,2,4-triazol-1-yl)pent-3- yn-2-ol; compound I-3 2-[4-(4-chlorophenoxy)-2-(trifluoromethyl)phenyl]-1-(1,2,4-triazol-1-yl)propan-2-ol; compound I-4 1-[4-(4-chlorophenoxy)-2-(trifluoromethyl)phenyl]-1-cyclopropyl-2-(1,2,4-triazol-1-yl)ethanol; and compound I-5 2-[4-(4-chlorophenoxy)-2-(trifluoromethyl)phenyl]-3-methyl-1-(1,2,4-triazol-1-yl)butan-2-ol, and 2) as component II an active ingredient selected from the groups A) to O) defined in the claims and description.

Description

The invention relates to compositions containing 1) as component I, a compound selected from the following compounds 1-1, 1-3, 1-4 and 1-5: compound 1-1 2 [2-chloro-4- (4-chlorophenoxy ) phenyl] -1- (1,2,4-triazol-1-yl) pent-3-yn-2-ol; Compound 1-3 2- (4- (4 chlorophenoxy) -2- (trifluoromethyl) phenyl] -1- (1,2,4-triazol-1-yl) propan-2-ol; Compound 1-4 1- (4 - (4 chlorophenoxy) -2- (trifluoromethyl) phenyl] -1-cyclopropyl-2- (1,2,4-triazol-1 -yl) ethanol and the compound 1-5 2- [4- (4-chlorophenoxy) -2 - (trifluoromethyl) phenyl] -3-methyl-1- (1,2,4-triazol-1-yl) butan-2-ol; 2) as component II active ingredient selected from groups A) to O) as defined in the claims and the description.

030875 B1

The present invention relates to compositions containing:

1) as component I, a compound selected from the following compounds I-1, I-3, I-4 and I-5: compound I-1: 2- [2-chloro-4- (4-chlorophenoxy) phenyl] - 1- (1,2,4-triazol-1-yl) pent-3-yn-2-ol; Compound I-3: 2- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -1- (1,2,4-triazol-1-yl) propan-2-ol; Compound I-4: 1- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -1-cyclopropyl-2- (1,2,4-triazol-1-yl) ethanol; and compound I-5: 2- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -3-methyl-1 - (1,2,4-triazol-1-yl) butan2-ol;

2) as a component II active ingredient selected from the following groups:

A) respiratory inhibitors:

inhibitors of complex III in Q _o the site 2- (2,5-dimethylphenoxymethyl) phenyl] -3-methoxyacrylic acid and 2- (2- (3- (2,6 dichlorophenyl) -1-methylallylideneaminoxymethyl) phenyl) -2-methoxyimino-N-methylacetamide, pyribencarb, triclopyricarb / Chloridine Carb, Famox Don, fenamidone;

inhibitors of complex III in Q, site: cyazofamide, amisulbrom, [(3B, 6B, 7K, 8K) -8-benzyl-3 - [(3 acetoxy-4-methoxypyridin-2-carbonyl) amino] -6-methyl-4, 9-dioxo-1,5-dioxonan-7-yl] 2-methylpropanoate, [(3B, 6B, 7K, 8K) -8-benzyl-3 - [[3- (acetoxymethoxy) -4-methoxypyridine-2-carbonyl ] amino] -6-methyl4,9-dioxo-1,5-dioxonan-7-yl] 2-methylpropanoate, [(38.6B, 7K, 8K) -8-benzyl-3 - [(3-isobutoxycarbonyloxy-4 -methoxypyridin-2-carbonyl) amino] -6-methyl-4,9-dioxo-1,5-dioxonan-7-yl] 2-methylpropanoate, [(38.6B, 7K, 8K) -8-benzyl-3 - [[3- (1,3-benzodioxol-5-ylmethoxy) -4-methoxypyridin-2-carbonyl] amino] -6-methyl-4,9-dioxo-1,5-dioxonan-7-and l] -2-methylpropanoate; (3B, 6B, 7K, 8K) -3 - [[(3-hydroxy-4methoxy-2-pyridinyl) carbonyl] amino] -6-methyl-4,9-dioxo-8- (phenylmethyl) -1,5- dioxonan-7-yl 2-methylpropanoate;

inhibitor complex (eg, carboxamide) 4'trifluoromethylthiobiphenyl-2-yl) -3-difluoromethyl-1-methyl-W-pyrazole-4-carboxamide, N- (2- (1,3,3trimethylbutyl) phenyl) -1,3-dimethyl-5 -fluoro- III-pyrazole-4-carboxamide, 3- (difluoromethyl) -1 -methyl-N (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide, 3- (trifluoromethyl) -1-methyl-I- (1,1,3-trimethylindan-

4-yl) pyrazole-4-carboxamide, 1,3-dimethyl-I- (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide, 3 (trifluoromethyl) -1,5-dimethyl-N- (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide, 1,3,5-trimethyl-I (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide, N- ( 7-fluoro-1,1,3-trimethylindan-4-yl) -1,3-dimethylpyrazole-4-carboxamide, no. [2- (2,4-dichlorophenyl) -2-methoxy-1-methylethyl] -3- (difluoromethyl) -1methylpyrazole-4-carboxamide;

other respiratory inhibitors (for example, complex I, uncoupling agents): diflumetorim, (5.8 difluoroquinazolin-4-yl) - {2- [2-fluoro-4- (4-trifluoromethylpyridin-2-yloxy) phenyl] ethyl} amine; nitrophenyl derivatives: binapacryl, dinobuton, dinocap, fluazinam; ferimzon; organometallic compounds: fentin salts such as fentin acetate, fentin chloride or fentin hydroxide; ametocradine; and silthiofam;

B) Sterol biosynthesis inhibitors (IHD fungicides):

demineralized antioxidants penconazole, propiconazole, prothioconazole, simeconazole, tebuconazole, tetraconazole, triadimefon, triadimenol, triticonazole, uniconazole, 1- [rel- (2S; 3R) -3- (2-chlorophenyl) -2- (2,4 difluorophenyl) oxyranylmethyl] -thiocyanato-1Y- [1,2,4] triazole, 2- [rel- (2S; 3R) -3- (2-chlorfe yl) -2- (2,4-difluorophenyl) oxiranylmethyl] -2Y- [1,2,4] triazole-3-thiol; imidazoles: imazalil, pefurazoat, prochloraz, triflumizol; pyrimidines, pyridines and piperazines: fenarimol, nuarimol, pyrifenox, triforin; 3 (4-chloro-2-fluorophenyl) -5- (2,4-difluorophenyl) isoxazol-4-yl] - (3-pyridyl) methanol;

delta-14 reductase inhibitors: aldimorph, dodemorph, dodemorph acetate, fenpropimorph, tridemorph, fenpropidin, piperalin, spiroxamine;

3-ketoreductase inhibitors: fenhexamide;

D) inhibitors of cell division and cytoskeleton:

tubulin inhibitors such as benzimidazoles, thiophanates: benomyl, carbendazim, fuberidazole, thiabendazole, thiophanate methyl; triazolopyrimidines: 5-chloro-7- (4-methylpiperidin-1-yl) -6- (2,4,6 trifluorophenyl) - [1,2,4] triazolo [1,5-a] pyrimidine;

other inhibitors of cell division: diethofencarb, ethaboxam, pencycuron, flupicolide, zoxamide, metrafenone, pyriophenone;

F) signal transduction inhibitors:

MAP kinase / histidine kinase inhibitors: fluorimide, iprodione, procymidone, vinclozolin, flu

- 1 030875 dioxonil;

G protein inhibitors: quinoxyfen;

G) inhibitors of lipid and membrane synthesis:

phospholipid biosynthesis inhibitors: edifenphos, iprobenfos, pyrazophos, isoprothiolane;

lipid peroxidation: dicloran, quintozene, tecnazen, tolclofos-methyl, biphenyl, chlorineb, etridiazole;

phospholipid biosynthesis and cell wall deposition: dimethomorph, flumorph, mandipropamid, pyrimorph, benthiavalicarb, iprovalicarb, valifenalate and N- (1- (1- (4 cyanophenyl) ethanesulfonyl) but-2-yl) carbamine ester 4-fluoromethyl)

compounds that damage the permeability of the cell membrane and fatty acids: propamocarb, propamocarb-hydrochloride;

fatty acid amide hydrolase inhibitors: oxathiapiproline, 1- [4- [4- [5- (2,6-difluorophenyl) -4,5 dihydro-3-isoxazolyl] -2-thiazolyl] -1-piperidinyl] -2- [5 -methyl-3 - (trifluoromethyl) -1I-pyrazol-1-yl] ethanone, 2- {3- [2- (1 - {[3,5-bis- (difluoromethyl) -1I-pyrazol-1-yl] acetyl} piperidin-4-yl) -1,3-thiazol-4-yl] 4,5-dihydro-1,2-oxazol-5-yl} phenylmethanesulfonate, 2- {3- [2- (1 - {[ 3,5-bis- (difluoromethyl) -1I-pyrazol-1yl] acetyl} piperidin-4-yl) -1,3-thiazol-4-yl] -4,5-dihydro-1,2-oxazole-5- sludge} -3 chlorophenylmethanesulfonate;

H) inhibitors with multilateral action:

inorganic active ingredients: Bordeaux mixture, copper acetate, copper hydroxide, copper oxychloride, basic copper sulfate, sulfur;

thio- and dithiocarbamates: ferbam, mancozeb, maneb, metam, metiram, propineb, thiram, zineb, ziram;

organochlorine compounds (such as phthalimides, sulphonamides, hlornitrily): anilazine, chlorothalonil, captafol, captan, folpet, dichlofluanid, dichlorophen, flusulfamide, hexachlorobenzene, pentachlorophenol and its salts, phthalide, tolylfluanid, № (4-chloro-2-nitrophenyl) - Ethyl 4-methylbenzenesulfonamide;

guanidines and others: guanidine, dodin, dodine free base, guazatin, guazatin acetate, iminoctadine, iminoctadine triacetate, iminoctadine tris- (albesilate), dithianon, 2,6-dimethyl-1H, 5H [1,4] dithiino [ 2,3-c: 5,6-с '] dipyrrole-1,3,5,7 (2H, 6H) -tetraon;

I) inhibitors of cell wall synthesis:

inhibitors of glucan synthesis: validamycin, polyoxin B; inhibitors of melanin synthesis: pyroquilone, tricyclazole, carpropamide, dicyclomet, phenoxanil;

L) Biopesticides:

L1) microbiological pesticides with fungicidal, bactericidal, virucidal and / or plant protection activating activities: Ampelomyces quisqualis, Aspergillus flavus, Aureobasidium pullulans, Bacillus amyloliquefaciens, B. mojavensis, B. pumilus, B. simplex, B. lyses, B. bisylis, B. sylix, Hasyloliquefaciens, B. mojavensis, B. plexilus, B. simplex, B. lyses-pacilus, B. mojavensis, B. sylix, B. sylix, p. B. subtilis var. amyloliquefaciens, Candida oleophila, C. saitoana, Clavibacter michiganensis (bacteriophages), Coniothyrium minitans, Cryphonectria parasitica, Cryptococcus albidus, Dilophosphora alopecuri, Fusarium oxysporum, Clonostachys rosea. catenas a anomala, Pythium oligandrum, Sphaerodes mycoparasitica, Streptomyces griseoviridis, S. lydicus, S. violaceusniger, Talaromyces flavus, Trichoderma asperellum, T. atroviride, T. fertile, T. gamsii, T. harmatum, T. harzianum; a mixture of T. harzianum and T. viride; a mixture of T. polysporum and T. harzianum; T. stromaticum, T. virens (also called Gliocladium virens), T. viride, Typhula phacorrhiza, Ulocladium oudemansii, Verticillium dahlia, zucchini yellow mosaic virus (avirulent strain);

M) growth regulators:

abscopicus , indole-3-acetic acid, maleic acid hydrazide, mefluidide, mepiquat (mexican), naphthalenuacetic acid, N-6-benzyladinine, paklobutrazole, prohexadione (prohexadione-calcium), prohydroxasmon, tidiazuron, trihydrate, proenthene (calcium), prohydroxadione (calcium), prohydroxasmon, tidiazuron , 3,5triiodobenzoic acid, trineksapak-ethyl and uniconazole;

O) insecticides:

Nicotinic receptor agonists / antagonists: clothianidin, dinotefuran, flupiradifuron, imidacloprid, thiametosam, nitenpyram, acetamiprid, thiaclopride, 1- (2-chloro-thiazol-5-ylmethyl) -2nitrimino-3,5-dimethyl-2-dimethyl-2-chloromethylamine-2-dimethyl-2-dimethyl-2-dimethyl-2-dimethyl-2-dimethyl-2-dimethyl) ] triazine;

GABA antagonists: endosulfan, ethiprole, fipronil, vaniliprol, pyrafrol, pyriprol, amide

5-amino-1- (2,6-dichloro-4-methylphenyl) -4-sulfinamoyl-W-pyrazole-3-thiocarboxylic acid.

The weight ratio of component I to component II in the compositions according to the invention is preferably from 1000: 1 to 1: 1000, more specifically from 500: 1 to 1: 500, in particular from 100: 1 to

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1: 100.

In accordance with one embodiment, the two-component compositions in accordance with the invention can preferably have a weight ratio of compound I with respect to compound II in the range from 1000: 1 to 1: 1, often in the range from 100: 1 to 1: 1, usually ranges from 50: 1 to 1: 1, preferably in the range from 20: 1 to 1: 1, more preferably in the range from 10: 1 to 1: 1, even more preferably in the range from 4: 1 to 1: 1 and features ranging from 2: 1 to 1: 1.

In accordance with one embodiment, the two-component compositions in accordance with the invention can preferably have a weight ratio of compound I to compound I, usually in the range from 1: 1 to 1000, often in the range from 1: 1 to 1: 100, as a rule in the range from 1: 1 to 1:50, preferably in the range from 1: 1 to 1:20, more preferably in the range from 1: 1 to 1:10, even more preferably in the range from 1: 1 to 1: 4 and especially in the range from 1: 1 to 1: 2.

In addition, the invention relates to the use of compositions according to the invention for controlling phytopathogenic fungi, as described in detail in this application, and to preparations or compositions containing them. In addition, the invention also relates to a seed containing compositions. In addition, the invention also relates to methods for controlling phytopathogenic fungi, as described in detail in the present invention, in which the fungi or the materials to be protected from fungal damage, plants, soil or seed are treated with an effective amount of the compositions according to the invention. In addition, the invention also relates to methods for producing compositions in accordance with the invention.

In order to reduce consumption rates and expand the spectrum of action of known compounds, it is an object of the present invention to provide compositions that, with a reduced total amount of active compounds used, exhibit an improved effect against the main pathogenic fungi, especially for certain indications. In addition, another task was to provide compositions that are suitable for controlling specific pathogens in particular important cultivated plants that are often susceptible to infection by pathogens.

Accordingly, the inventors have discovered the compositions and uses defined at the beginning and in the following description. In particular, the present invention relates to compositions containing component I and component II, and compositions containing component I, component II and component III, wherein component III is selected from compounds from groups A) to O), as defined in this invention, provided that all components differ from each other. In addition to these components I, II and III, the compositions in accordance with the invention may also contain other components (for example, component IV or components IV and V), each of which additional components (for example, component IV or components IV and V) independently selected from compounds of groups from A) to O), as defined in this invention, provided that all components are different from each other.

Compounds I can be obtained in various ways, by analogous methods known in the art (see J. Agric. Food Chem. (2009) 57, 4854-4860; EP 0275955 A1; DE 4003180 A1; EP 0 113640 A2; EP 0126430 A2) . In addition, compounds of the formula I, their preparation and use in plant protection are described in WO 2013/007767 (PCT / EP2012 / 063626), WO 2013/024076 (PCT / EP2012 / 065835), WO 2013/024075 (PCT / EP2012 / 065834), WO 2013/024077 (РСТ / ЕР2012 / 065836), WO 2013/024081 (РСТ / ЕР2012 / 065848), WO 2013/024080 (РСТ / ЕР2012 / 065847), WO 2013/024083 (РСТ / ЕР2012 / 065852) WO 2013/010862 (PCT / ER2012 / 063526), WO 2013/010894 (PCT / EP2012 / 063635), WO 2013/010885 (PCT / EP2012 / 063620), WO 2013/024082 (PCT / EP2012 / 065850), which also reveal some compositions with other active compounds. Due to the basic nature of their nitrogen atoms, component I, i.e. in particular, compound I-1, I-3, I-4 and I-5 or from any group of compounds I described in detail above, is able to form salts or addition products with inorganic or organic acids or metal ions, in particular salts with inorganic with acids.

Examples of inorganic acids are hydrohalic acids such as hydrogen fluoride, hydrogen chloride, hydrogen bromide and hydrogen iodide, carbonic acid, sulfuric acid, phosphoric acid, and nitric acid.

Suitable organic acids are, for example, formic acid and alkanoic acids, such as acetic acid, trifluoroacetic acid, trichloroacetic acid and propionic acid, as well as glycolic acid, thiocyanic acid, lactic acid, succinic acid, citric acid, benzoic acid and other arylcarboxylic acids, cinnamic acid, oxalic acid, alkylsulfonic acids (sulfonic acids with unbranched or branched alkyl residues with 1-20 carbon atoms), arylsulfonic acids or aryl sulfonic acids (aromatic residues such as phenyl and naphthyl, which carry one or two sulfonic acid groups), alkylphosphonic acids (phosphonic acids with linear or branched alkyl residues with 120 carbon atoms), arylphosphonic acids or aryl diphosphonic acids (aromatic residues such as phenyl and naphthyl, which carry one or two phosphoric acid residues), and alkyl, respectively, aryl residues can carry other substituents, for example, p-toluenesulfonic acid, salicylic acid, n-a inosalitsilovaya acid, 2-phenoxybenzoic acid,

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2-acetoxybenzoic acid, etc.

Suitable metal ions in particular are the ions of the elements of the second main group, especially calcium and magnesium, the third and fourth main group, especially aluminum, tin and lead, as well as from the first to the eighth subgroup, especially chromium, manganese, iron, cobalt, nickel, copper, zinc and others. Particularly preferred are metal ions of elements of transition groups of the fourth period. At the same time metals can be in various valencies suitable for them.

Components I contain chiral centers and, in general, they are obtained in the form of racemates.

The R- and S-enantiomers of the compounds in accordance with the invention can be separated and isolated in pure form by methods known to a person skilled in the art, for example, using chiral HPLC. Both enantiomers and their compositions are suitable as antimicrobial agents. Accordingly, this applies to compositions. In addition, components I can be in various crystalline modifications that may differ in biological activity.

In particular, in each case, the racemic composition is present. In addition, in accordance with the present invention, any other ratios of the ^) - enantiomer and (S) enantiomer may exist. This refers to each composition described in detail in this invention.

In accordance with one embodiment of the present invention, component I is compound I-1. Compound I-1 may be present as a racemic composition (^) - enantiomer and (b) - enantiomer. but (A-enantiomer and (b) -enantiomer may also be present in any other ratio, for example, the pure enantiomer (R) or the pure enantiomer (S) of compound I-1.

In accordance with one particular embodiment, compound I-1 is provided and used as (A-enantiomer with an enantiomeric excess (e.e.) in at least 40%, for example at least 50, 60, 70 or 80%, preferably at least 90%, more preferably at least 95%, even more preferably at least 98% and most preferably at least 99%.

In accordance with another specific embodiment, compound I-1 is provided and used as (b) -enantiomer with an enantiomeric excess (e.e.) in at least 40%, for example at least 50, 60, 70 or 80%, preferably at least 90%, more preferably at least 95%, even more preferably at least 98% and most preferably at least 99%.

The compound (R) -I-1: ^) - 2- [2-chloro-4- (4-chlorophenoxy) phenyl] -1- (1,2,4-triazol-1-yl) pent-3-in- 2-ol; the compound (S) -I-1: ^) - 2- [2-chloro-4- (4-chlorophenoxy) phenyl] -1- (1,2,4-triazol-1-yl) pent-3-in- 2-ol.

In accordance with another embodiment of the present invention, component I is compound I-3. Compound I-3 may be present as a racemic composition (A-enantiomer and (B) -enantiomer, but (D) -enantiomer and (B) -enantiomer may also be present in any other ratio, for example, pure enantiomer (R) or pure enantiomer (S) Compounds I-3.

In accordance with one particular embodiment, compound I-3 is provided and used as (A-enantiomer with an enantiomeric excess (e.e.) in at least 40%, for example at least 50, 60, 70 or 80%, preferably at least 90%, more preferably at least 95%, even more preferably at least 98% and most preferably at least 99%.

In accordance with another specific embodiment, compound I-3 is provided and used as an A-enantiomer with an enantiomeric excess (e.e.) in at least 40%, for example at least 50, 60, 70 or 80%, preferably at least 90%, more preferably at least 95%, even more preferably at least 98% and most preferably at least 99%.

The compound (R) -I-3: ^) - 2- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -1- (1,2,4-triazol-1yl) propan-2-ol;

the compound (S) -I-3: ^) - 2- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -1- (1,2,4-triazol-1-yl) propan2-ol.

In accordance with another another embodiment of the present invention, component I is compound I-4. Compound I-4 may be present as a racemic composition (R) enantiomer and ^) - enantiomer, but (A-enantiomer and A-enantiomer may also be present in any other ratio, for example, pure enantiomer (R) or pure enantiomer (S) compounds I-4.

In accordance with one particular embodiment, compound I-4 is provided and used as (A-enantiomer with an enantiomeric excess (e.e.) in at least 40%, for example at least 50, 60, 70 or 80%, preferably at least 90%, more preferably at least 95%, even more preferably at least 98% and most preferably at least 99%.

In accordance with another specific embodiment, compound I-4 is provided and used as an A-enantiomer with an enantiomeric excess (e.e.) in at least 40%, for example at least 50, 60, 70 or 80%, preferably at least 90%, more preferably at least 95%, even more preferably at least 98%, and most preferably

- 4 030875 at least 99%.

The compound (R) -I-4: (B.) - 1- [4- (4-chlorophenoxy) -2- (1rifluoromethyl) phenyl] -1-cyclopropyl-2- (1,2,4triazol-1 -yl) ethanol;

The compound (S) -I-4: (B) -1- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -1-cyclopropyl-2- (1,2,4triazol-1-yl) ethanol .

In accordance with yet another embodiment of the present invention, component I is compound I-5. Compound I-5 may be present as a racemic composition of the (R) enantiomer and the (b) enantiomer. but (.) - enantiomer and (b) -enantiomer may also be present in any other ratio, for example, the pure enantiomer (R) or the pure enantiomer (S) of compound I-5.

In accordance with one particular embodiment, compound I-5 is provided and used as a (P) -enantiomer with an enantiomeric excess (e.e.) in at least 40%, for example at least 50, 60, 70 or 80%, preferably at least 90%, more preferably at least 95%, even more preferably at least 98% and most preferably at least 99%.

In accordance with another specific embodiment, compound I-5 is provided and used as (b) -enantiomer with an enantiomeric excess (e.e.) of at least 40%, for example at least 50, 60, 70 or 80%, preferably at least 90%, more preferably at least 95%, even more preferably at least 98% and most preferably at least 99%.

Compound (R) -I-5: (.) - 2- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -3-methyl-1- (1,2,4-triazol-1 yl) butan-2-ol;

the compound (S) -I-5: ^) - 2- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -3-methyl-1- (1,2,4-triazol-1yl) butane 2-ol.

The active compounds of component II, component III and any other component selected from groups A) to O), as described in detail in this invention, their preparation and their action against harmful fungi are known (see: http: //www.alanwood .net / pesticides /), and mostly commercially available. Commercially available active compounds can be found, for example, in The Pesticide Manual, 14th edition, British Crop Protection Council (2006) and other publications. Fluxapiroxad (L- (3 ', 4', 5'-trifluorobiphenyl-2-yl) -3-difluoromethyl-1-methyl-1H-pyrazole-4 carboxamide) and its preparation and use are described in WO 2006/087343.

In the following, references are made to the active compounds of component II, component III and any other component selected from groups A) to O), as described in detail in this patent: benalaxyl, methyl L-phenylacetyl) -M-2,6-xylyl ) -OT-alaninate (DE 2903612); metalaxyl, methyl Nmethoxyacetyl) -Y-2,6-xylyl) -PE-alaninate (GB 1500581); Ofurace, (RS) -α- (2-chloro-N-2,6xsilylacetamido) -y-butyrolactone [CAS RN 58810-48-3]; oxadixyl; No. (2,6-dimethylphenyl) -2-methoxy # 2-oxo-3-oxazolidinyl) acetamide (GB 2058059); aldimorph, 4-alkyl-2,5 (or 2,6) -dimethylmorpholine, containing 65-75% 2,6-dimethylmorpholine and 25-35% 2,5-dimethylmorpholine, containing more than 85% 4-dodecyl-2, 5 (or 2,6) -dimethylmorpholine, where alkyl also covers octyl, decyl, tetradecyl and hexadecyl, with a cis / trans ratio of 1: 1 [CAS RN 91315-15-0]; Dodin, 1-dodecylguanidinium acetate (Plant Dis. Rep., vol. 41, p. 1029 (1957)); dodemorph, 4-cyclododecyl-2,6-dimethylmorpholine (DE 1198125); fenpropimorph, (RS) -cis-4- [3- (4-tert-butylphenyl) -2-methylpropyl] -2,6-dimethylmorpholine (DE 2752096); fenpropidin, (RS) -1- [3- (4-tert-butylphenyl) -2-methylpropyl] piperidine (DE 2752096); guazatin, a mixture of reaction products from amidation of technical purity iminodi (octamethylene) diamine containing various guanidines and polyamines [CAS RN 108173-90-6]; iminoctadine, 1,1'imino di (octamethylene) diguanidine (Congr. Plant Pathol. 1, p. 27 (1968)); spiroxamine, (8-tert-butyl-1,4dioxaspiro [4.5] dec-2-yl) diethylamine (EP-A 281842); tridemorph, 2,6-dimethyl-4-tridecylmorpholine (DE 1164152); pyrimethanil, 4,6-dimethylpyrimidin-2-ylphenylamine (DD-A 151404); mepanipyrim, (4-methyl-

6-prop-1-ynylpyrimidin-2-yl) phenylamine (EP-A 224339); cyprodinil, (4-cyclopropyl-6methylpyrimidin-2-yl) phenylamine (EP-A 310550); cycloheximide, 4 - {(2R) -2 - [(1S, 3S, 5S) -3,5-dimethyl-2oxo-cyclohexyl] -2-hydroxyethyl} piperidine-2,6-dione [CAS RN 66-81-9]; griseovulfin, 7-chloro-2 ', 4,6trimethoxy-6'-methylspiro [benzofuran-2 (3H), 1'-cyclohex-2'-ene] -3,4'-dione [CAS RN 126-07-8 ]; Kazugamycin, 3-O- [2-amino-4 - [(carboxyiminomethyl) amino] -2,3,4,6-tetradeoxy-a-O-arabino-hexopyrazonyl] -

D-chiro-inositol [CAS RN 6980-18-3]; natamycin, (8E, 14E, 16E, 18E, 20E) - (1R, 3S, 5R, 7R, 12R, 22R, 24S, 25R, 26S) -22- (3-amino-3,6-dideoxy-β-D -mannopyranosiloxy) -1,3,26-trihydroxy-12methyl-10-oxo-6,11,28-trioxatricyclo [22.3.1.05,7] octacose-8,14,16,18,20-pentaene-25-carboxylic acid [CAS RN 7681-93-8]; polyoxin, 5- (2-amino-5 ^ -carbamoyl-2-deoxy-E-xylonamido) -1- (5-carboxy-1,2,3,4-tetrahydro-2,4-dioxopyrimidin-1-yl) -1 , 5-dideoxy-in-O-allo-furanuronic acid [CAS RN 22976-86-9]; streptomycin, 1, G- {1-E- (1,3,5 / 2,4,6) -4- [5-deoxy-2 ^ - (2-deoxy-2-methylamino-a-Eglucopyranosyl) -3 -C-formyl-a-E-lixofuranosyloxy] -2,5,6-trihydroxycyclohex-1,3ilene} diganidine (J. Am. Chem. Soc. 69, p. 1234 (1947)); bitirtanol, in - ([1,1'-biphenyl] -4-yloxy) -a (1,1-dimethylethyl) -1H-1,2,4-triazol-1-ethanol (DE 2324020); bromuconazole, 1 - [[4-bromo-2- (2,4- 5 030875 dichlorophenyl) tetrahydro-2-furanyl] methyl] -1H-1,2,4-triazole (Proc. Br. Crop. Prot. Conf. Conf. 1990 - Pests Dis., Vol. 1, p. 459); cyproconazole, 2- (4-chlorophenyl) -3-cyclopropyl-1- [1,2,4] triazol-1-ylbutan-2-ol (US 4,664,696); difenoconazole, 1- {2- [2-chloro-4- (4-chlorophenoxy) phenyl] -4-methyl- [1,3] dioxolan-2-ylmethyl} W- [1,2,4] triazole (GB- A 2098607); diniconazole, (ZB) -v - [(2,4-dichlorophenyl) methylene ]-- (1,1dimethylethyl) -1H-1,2,4-triazol-1-ethanol (Noyaku Kagaku, 1983, volume 8, with 575); Enilconazole (imazalil), 1 [2- (2,4-dichlorophenyl) -2- (2-propenyloxy) ethyl] -H-imidazole (Fruits 28, p. 545, 1973); epoxiconazole, (2RS, 3SR) -1- [3- (2-chlorophenyl) -2,3-eroxy-2- (4-fluorophenyl) propyl] -1H-1,2,4-triazole (EP-A 196038) ; Fenbuconazole, a- [2- (4-chlorophenyl) ethyl] -a-phenyl-1H-1,2,4-triazole-1-propanenitrile (Proc. Br. Crop Prot. Conf. 1988 - Pests Dis. Volume 1, p. 33); fluquinconazole, 3- (2,4-dichlorophenyl) -6-fluoro-2- [1,2,4] -triazol-1-yl-3H-ninazolin-4-one (Proc. Br. Crop Prot. Conf.-Pests Dis . 5-3,411 (1992)); Fluzylazole, 1 - {[bis- (4fluorophenyl) methylsilanyl] methyl} -Sh- [1,2,4] triazole (Proc. Br. Crop Prot. Conf.-Pests Dis., 1, 413 (1984)); Flutriafol, a- (2-fluorophenyl) -a- (4-fluorophenyl) -1H-1,2,4-triazol-1-ethanol (EP 15756); hexaconazole, 2 (2,4-dichlorophenyl) -1- [1,2,4] triazol-1-ylhexan-2-ol (CAS RN 79983-71-4); ipconazole, 2 - [(4chlorophenyl) methyl] -5- (1-methylethyl) -1- (1H-1,2,4-triazol-1-ylmethyl) cyclopentanol (EP 267778), metconazole, 5- (4-chlorobenzyl A) -2,2-dimethyl-1- [1,2,4] triazol-1-ylmethylcyclopentanol (GB 857383); Myclobutanil, 2- (4-chlorophenyl) -2- [1,2,4] triazol-1-ylmethylpentanenitrile (CAS RN 88671-89-0); penconazole, 1- [2 (2,4-dichlorophenyl) pentyl] -Sh- [1,2,4] triazole (Pesticide Manual, 12th ed. (2000), S. 712); propiconazole, 1 [[2- (2,4-dichlorophenyl) -4-propyl-1,3-dioxolan-2-yl] methyl] -Sh-1,2,4-triazole (BE 835579); Prochloraz, Npropyl- [2- (2,4,6-trichlorophenoxy) ethyl] imidazole-1-carboxamide (US 3991071); prothioconazole, 2- [2- (1chlorocyclopropyl) -3- (2-chlorophenyl) -2-hydroxypropyl] -2,4-dihydro- [1,2,4] triazole-3-thion (WO

96/16048); simeconazole, a- (4-fluorophenyl) -a - [(trimethylsilyl) methyl] -1H-1,2,4-triazol-1-ethanol [CAS RN 149508-90-7]; tebuconazole, 1- (4-chlorophenyl) -4,4-dimethyl-3- [1,2,4] triazol-1-ylmethylpentan-3-ol (EP-A 40345); tetraconazole, 1- [2- (2,4-dichlorophenyl) -3- (1,1,2,2-tetrafluoroethoxy) propyl] -1H-1,2,4-triazole (EP 234242); triadimefon, 1- (4-chlorophenoxy) -3,3-dimethyl-1- (W-1,2,4-triazol-1-yl) -2-butanone (BE 793867); triadimenol, b- (4-chlorophenoxy) -a- (1,1-dimethylethyl) -1H-1,2,4-triazol-1-ethanol (DE 2324010); triflumisol, (4-chloro-2-trifluoromethylphenyl) - (2-propoxy-1- [1,2,4] triazol-1-yl ethylidene) amine (JP-A 79/119462); triticonazole, (5E) -5 - [(4-chlorophenyl) methylene] -2,2-dimethyl-1- (1H-1,2,4-triazole-1ylmethyl) cyclopentanol (FR 2641277); iprodione, No. of isopropyl-3- (3,5-dichlorophenyl) -2,4 dioxoimidazolidine-1-carboxamide (GB 1312536); Myclozolin, (RS) -3- (3,5-dichlorophenyl) -5 methoxymethyl-5-methyl-1,3-oxazolidin-2,4-dione [CAS RN 54864-61-8]; procymidone, N- (3,5dichlorophenyl) -1,2-dimethylcyclopropane-1,2-dicarboximide (US 3903090); vinclozolin, 3- (3,5dichlorophenyl) -5-methyl-5-vinyloxazolidine-2,4-dione (DE-A 2207576); ferbam, iron (3+) dimethyldithiocarbamate (US 1972961); nabam, disodium ethylene bis- (dithiocarbamate) (US 2,317,765); maneb, manganese ethylene bis- (dithiocarbamate) (US 2504404); mancozeb, manganese ethylene bis (dithiocarbamate) polymer complex of zinc salt (GB 996264); metham, methyldithiocarbamic acid (US 2,791,605); metiram, zinc ammonia ethylene bis- (dithiocarbamate) (US 3,248,400); propineb, zinc propylene bis (dithiocarbamate) polymer (BE 611960); polycarbamate, bis- (dimethylcarbamodithioato ^ D ') [c - [[1,2ethanediyl-bis- [carbamodithioato ^ A']] (2 -)] di [zinc] [CAS RN 64440-88-6]; thiram, bis (dimethylthiocarbamoyl) disulfide (DE 642532); ziram, dimethyldithiocarbamate [CAS RN 137-30-4]; zineb, zinc ethylene bis- (dithiocarbamate) (US 2457674); anilazine, 4,6-dichloro-I- (2-chlorophenyl) -1,3,5triazin-2-amine (US 2720480); Benomyl, No. butyl-2-acetylaminobenzoimidazole-1-carboxamide (US 3,631,176); boscalid, 2-chloro-I- (4'-chlorobiphenyl-2-yl) nicotinamide (EP-A 545099); carbendazim, methyl (III-benzoimidazol-2-yl) carbamate (US 3,657,443); carboxin, 5,6-dihydro-2-methyl-I-phenyl-1,4-oxathiin3-carboxamide (US 3,249,499); hydroxycarboxin, 5,6-dihydro-2-methyl-1,4-oxathiin-3-carboxanilide 4,4 dioxide (US 3399214); cyazofamide, 4-chloro-2-cyano-UH dimethyl-5- (4-methylphenyl) -1H-imidazole-1sulfonamide (CAS RN 120116-88-3); dazomet, 3,5-dimethyl-1,3,5 -thiadiazinan-2-thione (Bull. Soc. Chim. Fr. 15, p. 891 (1897)); Dithianon, 5,10-dioxo-5,10-dihydronaphto [2,3-b] [1,4] dithiine-2,3-dicarbonitrile (GB 857383); famoxadone, (RS) -3-anilino-5-methyl-5- (4-phenoxyphenyl) -1,3-oxazolidin-2,4-dione [CAS RN 131807- 57-3]; fenamidone, ^) - 1-anilino-4-methyl-2-methylthio-4-phenyl-imidazolin-5-one [CAS RN 16132634-7]; Fenarimol, a- (2-chlorophenyl) -a- (4-chlorophenyl) -5-pyrimidinemethanol (GB 1,218,623); fuberidazole, 2- (2-furanyl) -1H-benzimidazole (DE 1209799); flutolanyl, a, a, a-trifluoro-3'-isopropoxy-o-toluanilide (JP 1104514); Furametpyr, 5-chloro-No. 1, 3-dihydro-1,1,3-trimethyl-4-isobenzofuranyl) -1,3-dimethyl-1N pyrazole-4-carboxamide [CAS RN 123572-88-3]; isoprothiolane, diisopropyl 1,3-dithiolan-2 ylidenemalonate (Proc. Insectic. Fungic. Conf. 8. vol. 2, p. 715 (1975)); mepronil, 3'-isopropoxy-otoluanilide (US 3,937,740); nuarimol, a- (2-chlorophenyl) -a- (4-fluorophenyl) -5-pyrimidinemethanol (GB 1,218,623); flupicolid (picobenzamide), 2,6-dichloro-no. (3-chloro-5-trifluoromethylpyridin-2ylmethyl) benzamide (WO 99/42447); probenazole, 3-allyloxy-1,2-benzothiazole 1,1-dioxide (Agric. Biol. Chem. 37, p. 737 (1973)); proquinazid, 6-iodo-2-propoxy-3-propylquinazolin-4 (3H) -one (WO 97/48684); pyrifenox, 2 ', 4'-dichloro-2- (3-pyridyl) acetophenone (EZ) -O-methyloxime (EP 49854); pyroquilone, 1,2,5,6 tetrahydropyrrolo [3,2,1-y] quinolin-4-one (GB 13943373) quinoxyfen, 5,7-dichloro-4- (4 fluorophenoxy) quinoline (US 5240940); Silthiofam, Nollil-4,5-dimethyl-2- (trimethylsilyl) thiophen-3-6,038,875 carboxamide [CAS RN 175217-20-6]; thiabendazole, 2- (1,3-thiazol-4-yl) benzimidazole (US 3,017415); tifluzamid, 2 ', 6'-dibromo-2-methyl-4'-trifluoromethoxy-4-trifluoromethyl-1,3-thiazole-5-carboxanilide [CAS RN 130000-40-7]; thiophanate-methyl, 1,2-phenylene bis (iminocarbonothioyl) bis (dimethylcarbamate) (DE-A 1930540); thiadinyl, 3'-chloro-4,4'-dimethyl-1,2,3-thiadiazole-5-carboxanilide [CAS RN 223580-51-6]; tricyclazole, 5-methyl-1,2,4-triazolo [3,4-b] [1,3] benzothiazole [CAS RN 41814-78-2]; triforine, N, N '{piperazine-1,4-diyl bis - [(trichloromethyl) methylene]} diformamide (DE 1901421); Bordeaux mixture, a mixture of CuSO4x3Cu (OH) 2x3CaSO4 [CAS RN 8011-63-0]; copper acetate, Cu (OCOCH3) 2 [CAS RN 8011-63-0]; copper oxychloride, Cu ₂ Cl (OH) ₃ [CAS RN 1332-40-7]; basic copper sulfate, CuSO _four [CAS RN 1344-73-6]; binapacryl, (RS) -2-sec-butyl-4,6-dinitrophenyl 3-methylcrotonate [CAS RN 485-31-4]; dinocap, a mixture of 2,6-dinitro-4-octylphenylcrotonate and 2,4-dinitro-6-octylphenylcrotonate, where octyl is a mixture of 1-methylheptyl, 1-ethylhexyl and 1-propylpentyl (US 2,526,660); dinobuton, (RS) -2-sec-butyl-4,6-dinitrophenyl isopropyl carbonate [CAS RN 973-21-7]; nitrotal-isopropyl, diisopropyl 5-nitroisophthalate (Proc. Br. Insectic. Fungic. Conf. 7., volume 2, p. 673 (1973)); Fenpiclonil, 4- (2,3dichlorophenyl) -1H-pyrrole-3-carbonitrile (Proc. 1988 Br. Crop Prot. Conf. - Pests Dis., vol. 1, p. 65); Fludioxonil, 4- (2,2-difluorobenzo [1,3] dioxol-4-yl) -1H-pyrrole-3-carbonitrile (The Pesticide Manual, publ. The British Crop Protection Council, 10th ed. (1995) , p. 482); acibenzolar ^ -methyl, methyl 1,2,3benzothiadiazole-7-karbothioat [CAS RN 135158-54-2]; floubentiavalikarb (benthiavalicarb), isopropyl (^) - 1 - [(III) -1- (6-fluorobenzothiazol-2-yl) ethylcarbamoyl] -2-methylpropyl} carbamate (JP-A 09/323984); carpropamide, 2,2-dichloro-no. [1- (4-chlorophenyl) ethyl] -1-ethyl-3-methylcyclopropanecarboxamide [CAS RN 104030-54-8]; chlorothalonil, 2,4,5,6-tetrachloroisophthalonitrile (US 3290353); cyflufenamide, (Z) -N- [a (cyclopropylmethoxyimino) -2,3-difluoro-6- (trifluoromethyl) benzyl] -2-phenylacetamide (WO 96/19442); Cymoxanil, 1- (2-cyano-2-methoxyiminoacetyl) -3-ethyl urea (US 3,957,747); diclomezin, 6- (3,5dichlorophenyl-tolyl) pyridazin-3 (2H) -one (US 4052395) diclocymet, (RS) -2-cyano-N - [(R) -1- (2,4dichlorophenyl) ethyl ] -3,3-dimethylbutyramide [CAS RN 139920-32-4]; diethofencarb, isopropyl 3,4-diethoxycarbanilat (EP 78663); Edifenphos, O-ethyl S, S-diphenyl phosphorodithioate (DE 1493736) ethaboxam, N-cyano-2-thienylmethyl) -4-ethyl-2- (ethylamino) -5-thiazolecarboxamide (EP-A 639574); fenhexamide, L-2,3-dichloro-4-hydroxyphenyl) -1-methylcyclohexaccarboxamide (Proc. Br. Crop Prot. Conf. - Pests Dis., 1998, volume 2, p. 327); fentin acetate, triphenyltin (US 3499086); phenoxanil, L- (1-cyano-1,2-dimethylpropyl) -2- (2,4-dichlorophenoxy) propanamide (EP 262393); ferimzone, mepanipyrim, (Z) -2'methyl acetophenone-4,6-dimethylpyrimidin-2-ylhydrazone [CAS RN 89269-64-7]; fluazinam, 3-chloro-y- [3 chloro-2,6-dinitro-4- (trifluoromethyl) phenyl] -5- (trifluoromethyl) -2-pyridinamine (The Pesticide Manual, publ. The British Crop Protection Council, 10th ed. (1995), p. 474); fosethyl, phosethyl aluminum, ethylphosphonate (FR 2254276); Iprovalicarb, isopropyl [(1S) -2-methyl-1- (1-ptolylethylcarbamoyl) propyl] carbamate (EP-A 472996); hexachlorobenzene (S. R. Seances Acad. Agric. Fr. 31, p. 24, 1945); metrafenone, 3'-bromo-2,3,4,6'-tetramethoxy-2 ', 6-dimethylbenzophenone (US 5945567); pencycuron, 1- (4-chlorobenzyl) -1-cyclopentyl-3-phenylurea (DE 2732257); Penthiopyrad, (RS) -N- [2- (1,3dimethylbutyl) -3-thienyl] -1-methyl-3- (trifluoromethyl) -1H-pyrazole-4-carboxamide (JP 10130268); propamocarb, propyl 3- (dimethylamino) propylcarbamate (DE 1567169); phthalide (DE 1643347); tolclofos - methyl, O-2,6-dichloro-β-tolyl O, O-dimethyl phosphorotioate (GB 1467561); quintozene, pentachloronitrobenzene (DE 682048); zoxamide, (RS) -3,5-dichloro-N- (3-chloro-1-ethyl-1-methyl-2-oxopropyl) -p-toluamide [CAS RN 156052-68-5]; azoxystrobin, methyl 2- {2- [6- (2-cyano-1-vinylpenta-1,3-dienyloxy) pyrimidine-4yloxy] phenyl} -3-methoxyacrylate (EP 382375), dimoxystrobin, (E) -2- ( methoxyimino) -Y-methyl-2- [a (2,5-xilyloxy) -o-tolyl] acetamide (EP 477631); Enestroburin, methyl 2- {2- [3- (4-chlorophenyl) -1-methyl-lidene-amino-oxymethyl] phenyl} -3-methoxyacrylate (EP 936213); fluoxastrobin, (E) - {2- [6- (2chlorophenoxy) -5-fluoropyrimidin-4-yloxy] phenyl} (5,6-dihydro-1,4,2-dioxazin-3-yl) methanone Ometyloxime (WO 97 / 27189); kresoxim-methyl, methyl (E) -methoxyimino [α- (o-tolyloxy) -o-tolyl] acetate (EP 253213); metominostrobin, (E) -2- (methoxyimino) -Y-methyl-2- (2-phenoxyphenyl) acetamide (EP 398692); horizastrobin, (2E) -2- (methoxyimino) -2- {2 - [(3E, 5E, 6E) -5- (methoxyimino) -4,6-dimethyl-2,8 diox-3,7-diazanon-3, 6-dien-1-yl] phenyl} -Y-methylacetamide (WO 97/15552); picoxystrobin, methyl 3methoxy-2- [2- (6-trifluoromethylpyridin-2-yloxymethyl) phenyl] acrylate (EP 278595); Pyraclostrobin, methyl L- {2- [1- (4-chlorophenyl) -1H-pyrazol-3-yloxymethyl] phenyl} (M-methoxy) carbamate (WO 96/01256); Trifloxystrobin, methyl (E) -methoxyimino- {(E) -a [1 - (a, a, a-trifluoro-t-tolyl) ethylideneamino] -otolyl} acetate (EP 460575); captafol, Y- (1,1,2,2-tetrachloroethylthio) cyclohex-4-ene-1,2-dicarboximide (Phytopathology, vol. 52, p. 754 (1962)); captan, L- (trichloromethylthio) cyclohex-4-ene-1,2-dicarboximide (US 2,553,770); dichlofluanid, M-dichlorofluoromethylthio-N ', M'-dimethyl-M-phenylsulfamide (DE 1193498); Folpet, N-trichloromethylthio) phthalimide (US 2,553,770); tolylfluanid, N-dichlorofluoromethylthio-IZM'dimethyl-Np-tolylsulfamide (DE 1193498); Dimethomorph, 3- (4-chlorophenyl) -3- (3,4-dimethoxyphenyl) -1-morpholin-4-yl-propenone (EP 120321); flumetover, 2- (3,4-dimethoxyphenyl) -H-ethyl-a, a, a-trifluoro-Nmethyl-β-toluamide [AGROW No. 243, 22 (1995)]; flumorph, 3- (4-fluorophenyl) -3- (3,4-dimethoxyphenyl) -1-morpholin-4-ylpropenone (EP 860438); 5-Amino-2-isopropyl-3-oxo-4-o-tolyl-2,3-dihydropyrazole-1-thiocarboxylic acid S-allyl ester (CN 1939128).

- 7 030875

The pesticides described by the IUPAC nomenclature, their preparation and their fungicidal action are also known (see Can. J. Plant Sci. 48 (6), 587-94, 1968; EP-A 141317; EP-A 152031; EP-A 226917 ; EP-A 243970; EP-A 256503; EP-A 428941; EP-A 532022; EP-A 1028125; EP-A 1035122; EP-A 1201648; EP-A 1122244, JP 2002316902; DE 19650197; DE 10021412; DE 102005009458; US 3,296,272; US 3,325,503;

WO 98/46608; WO 99/14187; WO 99/24413; WO 99/27783; WO 00/29404; WO 00/46148; WO 00/65913;

WO 01/54501; WO 01/56358; WO 02/22583; WO 02/40431; WO 03/10149; WO 03/11853; WO 03/14103;

WO 03/16286; WO 03/53145; WO 03/61388; WO 03/66609; WO 03/74491; WO 04/49804; WO 04/83193;

WO 05/120234; WO 05/123689; WO 05/123690; WO 05/63721; WO 05/87772; WO 05/87773; WO 06/15866; WO 06/87325; WO 06/87343; WO 07/82098; WO 07/90624, WO 11/028657, WO 2012/168188, WO 2007/006670, WO 2011/77514; WO 13/047749, WO 10/069882, WO 13/047441, WO 03/16303, WO 09/90181, WO 13/127704, WO 13/024009 and WO 13/024010).

The active compounds of group O) and their pesticidal action, and methods for their preparation are known (see also http://www.hclrss.demon.co.uk/index.html). Commercially available active compounds can be found, for example, in The Pesticide Manual, 14th edition, British Crop Protection Council (2006) and other publications. Compound BB) group I)

Named IUPAC [(3S, 4R, 4aR, 6S, 6aS, 12R, 12aS, 12BS) -3- (cyclopropanecarbonyloxy) -6,12-dihydroxy-4,6a, 12b-trimethyl-11-oxo-9- (pyridine -3-yl) -1,2,3,4,4a, 5,6,6a, 12a, 12dechydro-11I, 12P-benzo [1] pyrano [4,3-b] chromen-4-yl] methylcyclopropanecarboxylate and its pesticidal action is disclosed in WO 2006/129714 and WO 2009/081851.

The other component (s), i.e. component II, III, IV, V, etc., in accordance with the present invention, is selected from any of the groups A) to O), as described above, provided that all of the components in one composition are different active substances .

The following further describes the compositions of the invention and their preferred uses. In each case, in accordance with the present invention, the use of a composition for controlling a particular phytopathogenic fungus also includes an appropriate method for controlling particular phytopathogenic fungi, in which the mushrooms, or materials to be protected from infection by fungi, plants, soil or seed, are treated with an effective amount compositions as defined in this particular context.

According to one aspect, the present invention relates to bicomponent compositions, i.e. compositions containing component I, i.e. in particular, a compound selected from compounds I-1, I3, I-4 and I-5 or from any group of compounds I described in detail above, and component II is selected from groups A) to O). According to a particular embodiment thereof, only two active compounds, as defined, are present in these compositions (in this context binary compositions are also called). The composition, of course, may contain any kind of additive or the like, as described in more detail below, in order to provide a composition suitable for use in agriculture.

The weight ratio of component I to component II depends on the properties of the active ingredients used and, as a rule, is in the range from 1: 1000 to 1000: 1, more specifically from 1: 500 to 500: 1. The weight ratio of component I to component II usually depends on the properties of the active substances used and, as a rule, is in the range from 1: 100 to 100: 1, often in the range from 1:50 to 50: 1, preferably in the range from 1:20 to 20: 1, particularly preferably in the range from 1:10 to 10: 1, in particular in the range from 1: 3 to 3: 1. Also, for the weight ratio, it may be preferable to be in the range from 1: 2 to 2: 1.

According to other embodiments of two-part compositions according to the invention, the weight ratio of component I to component II is generally in the range from 100: 1 to 1: 1, usually in the range from 50: 1 to 1: 1, preferably in the range 20: 1 to 1: 1, more preferably in the range from 10: 1 to 1: 1, even more preferably in the range from 4: 1 to 1: 1 and in particular in the range from 2: 1 to 1: 1.

According to still other embodiments of two-part compositions according to the invention, the weight ratio of component I to component II is generally in the range from 1: 1 to 1: 100, usually in the range from 1: 1 to 1:50, preferably in ranging from 1: 1 to 1:20, more preferably in the range from 1: 1 to 1:10, even more preferably in the range from 1: 1 to 1: 4 and in particular in the range from 1: 1 to 1: 2.

- 8 030875

In accordance with one embodiment of the two component compositions, component I, as defined above, and component II are selected from one of the groups A) to I).

One particular embodiment relates to a two-component composition, wherein component I is as defined above, particularly selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described in detail above and component II is selected from group A) respiratory inhibitors. In accordance with one embodiment, component II is selected from the group of inhibitors of complex III in Q _o plot, for example, strobilurins. In particular, component II is selected from the group consisting of azoxystrobin, dimoxystrobin, fluoxastrobin, kresoximmethyl, orysastrobin, picoxystrobin, pyraclostrobin, trifloxystrobin, famoxadone and fenamidone. In accordance with another specific embodiment, they are binary compositions which, as active compounds, contain in each case only the indicated two active components.

In accordance with another embodiment, component II is selected from the group of inhibitors of complex II, for example, carboxamides. In particular, component II is selected from the group that includes benzovindiflupir, bixaphen, boscalid, fluopyram, fluxapyroxad, isopyrazam, penflufen, pentiopyrad and sedaxan. According to another embodiment, component II is selected from the group of ametotradine, cyazofamide, fluazinam, fentin salts, such as fentin acetate. In accordance with another specific embodiment, they are binary compositions which, as active compounds, contain in each case only the indicated two active components.

In accordance with another embodiment of two component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described in detail above, and component II are selected from group B) sterol biosynthesis inhibitors (IHD fungicides). In accordance with one of its variants, component II is selected from the group of C14 demethylase (fungicides of IDM), selected from the fields of Cyproconazole, Difenoconazole, Epoxiconazole, Fluquinconazole, Fluzilazole, Flutriafol, Methonazole, Pentamidazole , tetraconazole, triticonazole, prochlorine, fenarimol and triforina. In accordance with another embodiment thereof, component II is selected from the group of delta-14 reductase inhibitors, in particular dodemorph, fenpropimorph, tridemorph, fenpropidin and spiroxamine. In accordance with another embodiment thereof, component II is selected from the group of 3-keto reductase inhibitors, such as fenhexamide.

In accordance with another embodiment of two component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described in detail above, and component II are selected from group D) of cell division and cytoskeleton inhibitors such as benomyl, carbendazim, thiophanate methyl, ethaboxam, flupicolide, zoxamide, metrafenone, pyriofenone, in particular ethaboxam, zoxamide and metrafenone.

In accordance with another embodiment of two component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described in detail above, and component II are selected from group F) of signal transduction inhibitors, especially those selected from iprodione, fludioxonil, vinclozolin and quinoxyfen.

In accordance with another embodiment of two component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described in detail above, and component II are selected from group G) lipid and membrane synthesis inhibitors such as dimethomorph, flumorph, iprovalicarb, benthiavalicarb, mandipropamid and propamocarb.

In accordance with another embodiment of two component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described in detail above, and component II are selected from group H) inhibitors with a multilateral action, especially those selected from captan, Bordeaux mixture, copper acetate, copper hydroxide, copper oxychloride, copper sulfate, sulfur, (three) basic copper sulfate, mancozeb, maneb, metiram, propineb, thiram, captafol, folpet, chlorothalonil, dichlofluanide, di tianon, dodin and 2,6 dimethyl-1H, 5H- [1,4] dithiino [2,3-c: 5,6-с '] dipyrrole-1,3,5,7 (2H, 6H) -tetraone, more preferably selected from captan, Bordeaux mixture, copper hydroxide, copper oxychloride, copper sulfate, (three) basic copper sulfate, mankozeba, maneb, metiramfolpeta, chlorothalonil, dithianon, dodine and 2,6-dimethyl-1H, 5H- [1,4 ] dithiino [2,3-c: 5,6-с '] dipyrrole-1,3,5,7 (2H, 6H) -tetraone.

In accordance with another embodiment of two component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described in detail above, and component II selected from group I) inhibitors of cell wall synthesis, in particular selected from carpropamid and phenoxanil.

In accordance with another embodiment of the two-component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5 or from any group with

- 9 030875 of unity I, described in detail above, and component II from any component of group L) (antifungal biocontrol agents and plant bioactivators), especially selected from Bacillus subtilis strain NRRL No. В-21661, Bacillus pumilus strain NRRL No. В-30087 and Ulocladium oudemansii.

In accordance with another embodiment of two component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described in detail above, and component II from any component of group M) (growth regulators). In accordance with one particular embodiment, the growth regulator is selected from chloromequate (chlormequate chloride), mepiquat (mepiquat chloride), paclobutrazole, prohexadione (prohexadione-calcium), trinexapac-ethyl and uniconazole.

In accordance with a specific embodiment of the two-component compositions according to the invention containing two fungicides, the composition particularly contains a compound selected from compounds I-1, I-3, I-4 and I-5 (component I), and component II selected from pyraclostrobin, fluxapiroxad, fenpropimorph, prothioconazole and chlorothalonil in a weight ratio of from 1:20 to 20: 1, particularly preferably in the range from 1:10 to 10: 1, especially in the range from 1: 3 to 3: 1. It may also be preferred that the weight ratio is in the range from 1: 2 to 2: 1. In some embodiments, these compositions are a binary composition, i.e. in the context of the present invention, a composition in which only the two indicated active compounds are present. Naturally, the composition may contain any type of additive or similar to it, as described in more detail below in order to provide a composition suitable for use in agriculture. These two-component compositions containing two fungicides as components I and II are particularly suitable as fungicides, as described in detail below.

According to a particular embodiment thereof, said compositions are used to combat the pathogens of grain crops. In particular, these compositions are suitable for combating wheat pathogens. When used in wheat, particularly preferred weight ratios of active ingredients range from 20: 1 to 1:20, in particular from 2: 1 to 1: 2, and it may be particularly preferable if component I to II is present from 1: 1 to 2: 1. These compositions are particularly suitable for combating wheat pathogens selected from Septoria tritici, Stagonospora nodorum, Pyrenophora tritici repentis, Puccinia recondita, Puccinia striiformis and Blumeria graminis. In addition, the composition is suitable for the control of pathogens selected from Fusarium culmorum, Fusarium graminearum and Pseudocercosporella herpotrichoides. In accordance with another specific embodiment, said compositions are suitable for controlling barley pathogens. If used in barley, particularly preferred weight ratios of active ingredients are from 20: 1 to 1:20, in particular from 2: 1 to 1: 2, and it may be particularly preferable if component I to II is present from 1: 1 to 2: 1. These compositions are particularly suitable for controlling barley pathogens selected from Pyrenophera teres, Rhychosporium secalis, Puccinia hordei and Blumeria graminis. In addition, these compositions are suitable for combating barley pathogens selected from Ramularia collocygni and Pseudocercosporella herpotrichoides.

In accordance with another specific embodiment, said compositions are used to combat soybean pathogens. If used in soybeans, particularly preferred weight ratios of active ingredients range from 20: 1 to 1:20, in particular from 3: 1 to 1: 3, and it may be particularly preferable if component I to II is present from 3: 1 to 2: 1. In particular, these compositions are suitable for the control of soy pathogens selected from phakopsora pachyrizi, P. meibomiae and Microsphaera diffusa. In soy these compositions can also be effectively applied to combat the so-called CPF (Leaf Disease Complex), for example, against Septoria glycines, Cercospora kikuchii, C. sojina, Corynespora cassiicola and / or Alternaria spp.

In accordance with another specific embodiment, said compositions are used to combat cereal pathogens. If used in cereals, particularly preferred weight ratios of active ingredients are from 20: 1 to 1:20, in particular from 2: 1 to 1: 2, and it may be particularly preferable if component I to II is present from 2: 1 to 1: 1. In particular, these compositions are suitable for controlling cereal pathogens selected from Cercospora zeae-maydis, Puccinia sorghi and Helminthosporium maydis.

In accordance with another specific embodiment, said compositions are used to combat sugar beet pathogens. If used in sugar beets, particularly preferred weight ratios of active ingredients are from 20: 1 to 1:20, in particular from 2: 1 to 1: 2, and it may be particularly preferable if component I to II is present from 2: 1 to 1: 1. In particular, these compositions are suitable for controlling cereal pathogens selected from Cercospora beticola, Erysiphe betae, Ramularia betae and Uromyces betae.

In accordance with another specific embodiment, said compositions are used to combat the pathogens of nuts, particularly those selected from Mycosphaerella arachidis (= Cercospora) and Puccinia arachidis. If used in nuts, particularly preferred weight ratios of active ingredients are from 20: 1 to 1:20, in particular from 2: 1 to 1: 2, and it may be particularly preferable if component I to II is present from 2: 1 to 1: 1.

- 10 030875

In accordance with another specific embodiment, said compositions are used to combat the pathogens of oilseed rape and canola, especially those selected from Sclerotinia sclerotiorum, Leptosphearia maculans and Alternaria alternate. If used in oilseed rape and canola, particularly preferred weight ratios of active substances are from 20: 1 to 1:20, in particular from 2: 1 to 1: 2, and it may be particularly preferable if component I to II is present from 2: 1 to 1: 1.

In accordance with another specific embodiment, said compositions are used to combat rice pathogens, especially those selected from Rhizoctonia solani and Pyricularia oryzae. If used in rice, particularly preferred weight ratios of active ingredients are from 20: 1 to 1:20, in particular from 2: 1 to 1: 2, and it may be particularly preferable if component I to II is present from 2: 1 to 1: 1.

These compositions of component I and II are also suitable for controlling pathogens in certain cultivated plants, such as turf, potatoes, tomatoes, pumpkin, vines, apples, ornamental plants and bananas. Turf pathogens that can be controlled in accordance with the present invention are selected from Sclerotinia homeocarpa and Rhizoctonia solani. If used in turf, particularly preferred weight ratios of active ingredients range from 20: 1 bis 1:20, in particular from 2: 1 to 1: 2, and it may be particularly preferable if component I to II is present from 1: 1 to 1: 2. Potato and tomato pathogens, which can be controlled in accordance with the present invention, are particularly selected from Alternaria solani, A. alternata and Rhizoctonia solani pathogens. Pumpkin pathogen, which can be controlled in accordance with the present invention in particular is Sphaerotheca fuliginea. The pathogen of the vine, which can be controlled in accordance with the present invention in particular, is Uncinula necator and Botrytis cinerea. The apple pathogen that can be controlled in accordance with the present invention is in particular Podosphaera leucotricha and Venturia inaequalis. Pathogens of ornamental plants that can be controlled in accordance with the present invention are particularly selected from Sphaerotheca fuliginea, Diplocarpon spp., Alternaria spp. and Sclerotinia spp. Banana pathogens, which can be controlled in accordance with the present invention, are particularly selected from the Mycosphaerella fijiensis and Mycosphaerella musicola.

A specific embodiment of the above embodiment relates to a composition comprising component I and fluxapiroxad as component II in a weight ratio of from 20: 1 to 1:20, more specifically from 5: 1 to 1: 5, in particular from 3: 1 to 1: 3, more specifically 2: 1 to 1: 2. Surprisingly, this composition exhibits synergistic effects, and the components are especially used in synergistically effective amounts.

Another particular embodiment of the above two-component compositions relates to a composition comprising component I and, as component II, pyraclostrobin in a weight ratio of from 20: 1 to 1:20, more specifically from 5: 1 to 1: 5, in particular from 3: 1 to 1: 3, more specifically from 2: 1 to 1: 2. Surprisingly, this composition exhibits synergistic effects and components are especially used in synergistically effective amounts.

Another specific embodiment of the above two-component compositions relates to a composition comprising component I and as component II fenpropimorph in a weight ratio of from 20: 1 to 1:20, more specifically from 5: 1 to 1: 5, in particular from 3: 1 to 1: 3, more specifically from 2: 1 to 1: 2. Surprisingly, this composition exhibits synergistic effects and components are especially used in synergistically effective amounts.

Another specific embodiment of the above two-component compositions relates to a composition comprising component I and, as component II, chlorothalonil in a weight ratio of from 20: 1 to 1:20, more specifically from 5: 1 to 1: 5, in particular from 3: 1 to 1: 3, more specifically from 2: 1 to 1: 2. Surprisingly, this composition exhibits synergistic effects and components are especially used in synergistically effective amounts.

In accordance with another embodiment of two component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described in detail above, and component II from any component of the group O) (insecticides). In accordance with another specific embodiment, the insecticide is selected from the group of nicotinic receptor agonists / antagonists, in particular those selected from the group that includes: clothianidin, imidacloprid, thiamethoxam and thiacloprid. In accordance with another specific embodiment, the insecticide is selected from the group of GABA antagonists, especially selected from the group that includes: endosulfan and fipronil.

In accordance with a preferred embodiment of the invention, component II is selected from the following fungicidal compounds:

II-1 ametokradin

P-2 amisulbrom

N-azoxystrobin

- 11 030875

P-4 bentiavalikarb

P-5 benzovindiflupir

P-6 Bixafen

P-7 Boskalid

P-8 carbendazim

P-9 Captan

II-10 carboxin

II-11 chlorothalonil

II-12 cyazofamide

II-13 cyflufenamide

II-14 cymoxanil

II-15 cyproconazole

II-16 cyprodinil

II-17 copper

II-18 copper hydroxide

II-19 dodemorph

P-20 Dodn

P-21 difenokonazol

P-22 dimethomorph

P-23 dimoxystrobin

P-24 diniconazole

P-25 dithianon

P-26 epoxyconazole

P-27 etaboksam

P-28 famoxadone

P-29 Fenamidon

P-30 fenhexamide

P-31 fenpropidin

P-32 fenpropimorph

P-33 fluazinam

Accordingly, particularly preferred two-component compositions are given in table. B, in which each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, they are binary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. B: two-component compositions containing one component I and one component II, in particular binary compositions containing the corresponding component I and II as active substances only.

Table B

composition I II IN 1 1-1 II-1 AT 2 1-3 II-1 IN 3 1-4 II-1 AT 4 1-5 II-1 AT 5 1-1 P-2 AT 6 1-3 P-2 composition I II AT 7 1-4 P-2 AT 8 1-5 P-2 AT 9 1-1 Fz AT 10 1-3 P-3 AT 11 1-4 Fz AT 12 1-5 Fz

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composition I II B-13 1-1 P-4 B-14 1-3 P-4 B-15 1-4 P-4 B-16 1-5 P-4 B-17 1-1 II-5 B-18 1-3 II-5 composition I II B-19 1-4 P-5 IN 20 1-5 P-5 AT 21 1-1 P-6 B-22 1-3 P-6 B-23 1-4 P-6 B-24 1-5 P-6 B-25 1-1 P-7 B-26 1-3 P-7 B-27 1-4 P-7 B-28 1-5 P-7 B-29 1-1 P-8 B-30 1-3 P-8 B-31 1-4 P-8 B-32 1-5 P-8 B-33 1-1 P-9 B-34 1-3 P-9 B-35 1-4 P-9 B-36 1-5 P-9 B-37 1-1 II-10 B-38 1-3 II-10 B-39 1-4 II-10 B-40 1-5 II-10 B-41 1-1 II-I B-42 1-3 II-I B-43 1-4 II-I B-44 1-5 II B-45 1-1 II-12 B-46 1-3 II-12 B-47 1-4 II-12 B-48 1-5 II-12 B-49 1-1 II-13 B-50 1-3 II-13 B-51 1-4 II-13 B-52 1-5 II-13 B-53 1-1 II-14 B-54 1-3 II-14 B-55 1-4 II-14 B-56 1-5 II-14 B-57 1-1 II-15

- 13 030875

B-58 1-3 II-15 B-59 1-4 II-15 B-60 1-5 II-15 B-61 1-1 II-16 B-62 1-3 II-16 B-63 1-4 II-16 B-64 1-5 II-16 B-65 1-1 II-17 B-66 1-3 II-17 B-67 1-4 II-17 B-68 1-5 II-17 B-69 1-1 II-18 B-70 1-3 II-18 B-71 1-4 II-18 B-72 1-5 II-18 B-73 1-1 II-19 B-74 1-3 II-19 B-75 1-4 II-19 B-76 1-5 II-19 B-77 1-1 P-20 B-78 1-3 P-20 B-79 1-4 P-20 B-80 1-5 P-20 B-81 1-1 P-21 B-82 1-3 P-21 B-83 1-4 P-21 B-84 1-5 P-21 B-85 1-1 P-22 B-86 1-3 P-22 B-87 1-4 P-22 B-88 1-5 P-22 B-89 1-1 P-23 B-90 1-3 P-23 B-91 1-4 P-23 B-92 1-5 P-23 B-93 1-1 P-24 B-94 1-3 P-24 B-95 1-4 P-24 B-96 1-5 P-24 B-97 1-1 P-25 B-98 1-3 P-25 B-99 1-4 P-25 B-100 1-5 P-25 B-101 1-1 P-26 B-102 1-3 P-26 B-103 1-4 P-26 B-104 1-5 P-26 B-105 1-1 P-27 B-106 1-3 P-27 B-107 1-4 P-27 B-108 1-5 P-27 B-109 1-1 P-28 B-110 1-3 P-28 B-111 1-4 P-28 B-112 1-5 P-28 B-113 1-1 P-29 B-114 1-3 P-29 B-115 1-4 P-29 B-116 1-5 P-29 B-117 1-1 P-30 B-118 1-3 P-30 B-119 1-4 P-30 B-120 1-5 P-30 B-121 1-1 P-31 B-122 1-3 P-31 B-123 1-4 P-31 B-124 1-5 P-31 B-125 1-1 P-32 B-126 1-3 P-32 B-127 1-4 P-32 B-128 1-5 P-32 B-129 1-1 P-33 B-130 1-3 P-33 B-131 1-4 P-33 B-132 1-5 P-33

In accordance with another preferred embodiment of the invention, component II

- 14 030875 selected from the following fungicidal compounds:

P-34 Fludioxonil

P-35 flupycolide

P-36 fluopyram

P-37 fluoxastrobin

P-38 fluquinconazole

P-39 fluzilazole

P-40 flutolanil

P-41 flutriafol

P-42 fluxapiroxad

P-43 folpet

P-44 fosetyl-A1

P-45 guazatin

P-46 hymexazole

P-47 imazalil

P-48 Ipconazole

P-49 iprodione

P-50 Isopyrazam

P-51 iprovalicarb

P-52 kiralaksil

P-53 Kresoxim-methyl

P-54 mancozeb

P-55 mandipropamid

P-56 mefenoxam

P-57 mepanipyrim

P-58 metildinocap

P-59 metalaxyl

P-60 metconazole

P-61 metiram

P-62 metrafenone

P-63 miklobutanil

P-64 oryzastrobin

P-65 proquinazid

P-66 Pyraclostrobin

Accordingly, other particularly preferred two-component compositions are given in table. B1, in which each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, they are binary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. B1: two-component compositions containing one component I and one component II, especially binary compositions containing the corresponding component I and II only as active ingredients.

Table b1

composition I II B1-1 1-1 P-34 B1-2 1-3 P-34 B1-3 1-4 P-34 B1-4 1-5 P-34 B1-5 1-1 P-35 B1-6 1-3 P-35

- 15 030875

Bl-7 1-4 11-35 Bl-8 1-5 11-35 Bl-9 1-1 11-36 Bl-10 1-3 11-36 Bl-11 1-4 11-36 Bl-12 1-5 11-36 Bl-13 1-1 11-37 Bl-14 1-3 11-37 Bl-15 1-4 11-37 Bl-16 1-5 11-37 Bl-17 1-1 11-38 Bl-18 1-3 11-38 compo I II position Bl-19 1-4 11-38 Bl-20 1-5 11-38 Bl-21 1-1 11-39 B1-22 1-3 11-39 Bl-23 1-4 11-39 B1-24 1-5 11-39 Bl-25 1-1 11-40 Bl-26 1-3 11-40 Bl-27 1-4 11-40 Bl-28 1-5 11-40 Bl-29 1-1 11-41 Bl-30 1-3 11-41 Bl-31 1-4 11-41 Bl-32 1-5 11-41 Bl-33 1-1 11-42 Bl-34 1-3 11-42 Bl-35 1-4 11-42 Bl-36 1-5 11-42 Bl-37 1-1 11-43 Bl-38 1-3 11-43 Bl-39 1-4 11-43 Bl-40 1-5 11-43 Bl-41 1-1 11-44 B1-42 1-3 11-44 Bl-43 1-4 11-44 B1-44 1-5 11-44 Bl-45 1-1 11-45 Bl-46 1-3 11-45 Bl-47 1-4 11-45 Bl-48 1-5 11-45 Bl-49 1-1 11-46 Bl-50 1-3 11-46 Bl-51 1-4 11-46 Bl-52 1-5 11-46 Bl-53 1-1 11-47 Bl-54 1-3 11-47 Bl-55 1-4 11-47 Bl-56 1-5 11-47 Bl-57 1-1 11-48

- 16 030875

Bl-58 1-3 11-48 Bl-59 1-4 11-48 Bl-60 1-5 11-48 Bl-61 1-1 11-49 Bl-62 1-3 11-49 Bl-63 1-4 11-49 Bl-64 1-5 11-49 Bl-65 1-1 11-50 Bl-66 1-2 11-50 Bl-67 1-3 11-50 Bl-68 1-4 11-50 Bl-69 1-5 11-50 Bl-70 1-1 11-51 Bl-71 1-3 11-51 Bl-72 1-4 11-51 Bl-73 1-5 11-51 Bl-74 1-1 11-52 Bl-75 1-3 11-52 Bl-76 1-4 11-52 Bl-77 1-5 11-52 Bl-78 1-1 11-53 Bl-79 1-3 11-53 Bl-80 1-4 11-53 Bl-81 1-5 11-53 Bl-82 1-1 11-54 Bl-83 1-3 11-54 Bl-84 1-4 11-54 Bl-85 1-5 11-54 Bl-86 1-1 11-55 Bl-87 1-3 11-55 Bl-88 1-4 11-55 Bl-89 1-5 11-55 Bl-90 1-1 11-56 Bl-91 1-3 11-56 Bl-92 1-4 11-56 Bl-93 1-5 11-56 Bl-94 1-1 11-57 Bl-95 1-3 11-57 Bl-96 1-4 11-57

- 17 030875

B1-97 1-5 II-5 7 B1-98 1-1 II-5 8 B1-99 1-3 II-5 8 B1-100 1-4 II-5 8 B1-101 1-5 II-5 8 B1-102 1-1 II-5 9 B1-103 1-3 II-5 9 B1-104 1-4 II-5 9 B1-105 1-5 II-5 9 B1-106 1-1 P-60 B1-107 1-3 P-60 B1-108 1-4 P-60 B1-109 1-5 P-60 B1-110 1-1 P-61 B1-111 1-3 P-61 B1-112 1-4 P-61 B1-113 1-5 P-61 B1-114 1-1 P-62 B1-115 1-3 P-62 B1-116 1-4 P-62 B1-117 1-5 P-62 B1-118 1-1 P-63 B1-119 1-3 P-63 B1-120 1-4 P-63 B1-121 1-5 P-63 B1-122 1-1 P-64 B1-123 1-3 P-64 B1-124 1-4 P-64 B1-125 1-5 P-64 B1-126 1-1 P-65 B1-127 1-3 P-65 B1-128 1-4 P-65 B1-129 1-5 P-65 B1-130 1-1 P-66 B1-131 1-3 P-66 B1-132 1-4 P-66 B1-133 1-5 P-66

In accordance with another preferred embodiment of the invention, component II is selected from the following fungicidal compounds:

P-67 penconazole

P-68 penflufen

P-69 phosphorous acid

P-70 potassium salt of phosphorous acid

P-71 sodium phosphate salt

P-72 penthiopyrad

P-73 picoxystrobin

P-74 prokhloraz

P-75 propamocarb

P-76 propiconazole

P-77 propineb

P-78 Prothioconazole

P-79 pyrimethanil

P-80 pyriofenone

P-81 quinoxyfen

P-82 sedaksan

- 18 030875

P-83 silthiofam

P-84 spiroxamine

P-85 sulfur

P-86 tebuconazole

P-87 tetraconazole

P-88 thiabendazole

P-89 thiophanate methyl

P-90 thiram

P-91 triazoxide

P-92 Trifloxystrobin

P-93 triticonazole

P-94 valifenalat

P-95 Vinclozolin

P-96 ziram

P-97 zoxamide

Accordingly, other particularly preferred two-component compositions are given in table. B2, in which each line corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, they are binary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. B2: two-component compositions containing one component I and one component II, especially binary compositions containing the corresponding component I and II only as active ingredients.

Table B2

composition I II B2-1 1-1 P-67 B2-2 1-3 P-67 B2-3 1-4 P-67 B2-4 1-5 P-67 B2-5 1-1 P-68 B2-6 1-3 P-68 B2-7 1-4 P-68 B2-8 1-5 P-68 B2-9 1-1 P-69 B2-10 1-3 P-69 B2-11 1-4 P-69 B2-12 1-5 P-69

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composition I II B2-13 1-1 11-70 B2-14 1-3 11-70 B2-15 1-4 11-70 B2-16 1-5 11-70 B2-17 1-1 11-71 B2-18 1-3 11-71 B2-19 1-4 11-71 B2-20 1-5 11-71 B2-21 1-1 11-72 B2-22 1-3 11-72 B2-23 1-4 11-72 B2-24 1-5 11-72 B2-25 1-1 11-73 B2-26 1-3 11-73 B2-27 1-4 11-73 B2-28 1-5 11-73 B2-29 1-1 11-74 B2-30 1-3 11-74 B2-31 1-4 11-74 B2-32 1-5 11-74 B2-33 1-1 11-75 B2-34 1-3 11-75 B2-35 1-4 11-75 B2-36 1-5 11-75 B2-37 1-1 11-76 B2-38 1-3 11-76 B2-39 1-4 11-76 B2-40 1-5 11-76 B2-41 1-1 11-77 B2-42 1-3 11-77 B2-43 1-4 11-77 B2-44 1-5 11-77 B2-45 1-1 11-78 B2-46 1-3 11-78 B2-47 1-4 11-78 B2-48 1-5 11-78 B2-49 1-1 11-79 B2-50 1-3 11-79

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B2-51 1-4 11-79 B2-52 1-5 11-79 B2-53 1-1 11-80 B2-54 1-3 11-80 B2-55 1-4 11-80 B2-56 1-5 11-80 B2-57 1-1 11-81 B2-58 1-3 11-81 B2-59 1-4 11-81 B2-60 1-5 11-81 B2-61 1-1 11-82 B2-62 1-3 11-82 B2-63 1-4 11-82 B2-64 1-5 11-82 B2-65 1-1 11-83 B2-66 1-3 11-83 B2-67 1-4 11-83 B2-68 1-5 11-83 B2-69 1-1 11-84 B2-70 1-3 11-84 B2-71 1-4 11-84 B2-72 1-5 11-84 B2-73 1-1 11-85 B2-74 1-3 11-85 B2-75 1-4 11-85 B2-76 1-5 11-85 B2-77 1-1 11-86 B2-78 1-3 11-86 B2-79 1-4 11-86 B2-80 1-5 11-86 B2-81 1-1 11-87 B2-82 1-3 11-87 B2-83 1-4 11-87 B2-84 1-5 11-87 B2-85 1-1 11-88 B2-86 1-3 11-88 B2-87 1-4 11-88 B2-88 1-5 11-88

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B2-89 1-1 II-8 9 B2-90 1-3 II-8 9 B2-91 1-4 II-8 9 B2-92 1-5 II-8 9 B2-93 1-1 P-90 B2-94 1-3 P-90 B2-95 1-4 P-90 B2-96 1-5 P-90 B2-97 1-1 P-91 B2-98 1-3 P-91 B2-99 1-4 P-91 B2-100 1-5 P-91 B2-101 1-1 P-92 B2-102 1-3 P-92 B2-103 1-4 P-92 B2-104 1-5 P-92 B2-105 1-1 P-93 B2-106 1-3 P-93 B2-107 1-4 P-93 B2-108 1-5 P-93 B2-109 1-1 P-94 B2-110 1-3 P-94 B2-111 1-4 P-94 B2-112 1-5 P-94 B2-113 1-1 P-95 B2-114 1-3 P-95 B2-115 1-4 P-95 B2-116 1-5 P-95 B2-117 1-1 P-96 B2-118 1-3 P-96 B2-119 1-4 P-96 B2-120 1-5 P-96 B2-121 1-1 P-97 B2-122 1-3 P-97 B2-123 1-4 P-97 B2-124 1-5 P-97

In accordance with yet another preferred embodiment of the invention, component II is selected from the following fungicidal compounds:

II-98: 2,6-dimethyl-1H, 5H- [1,4] dithiino [2,3-c: 5,6-с '] dipyrrole-1,3,5,7 (2H, 6H) -tetraon ,

II-99: maneb,

II-100: Bordeaux mixture,

II-101: copper oxychloride,

II-102: basic copper sulfate.

Accordingly, other particularly preferred two-component compositions are given in table. B2a, in which each line corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, they are binary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. B2a: two-component compositions containing one component I and one component II, in particular binary compositions containing the corresponding component I and II only as active ingredients.

Table B2a

composition I II B2a-1 1-1 P-98 B2a-2 1-3 P-98 B2a-3 1-4 P-98 B2a-4 1-5 P-98 B2a-5 1-1 P-99 B2a-6 1-3 P-99 B2a-7 1-4 P-99 B2a-8 1-5 P-99 B2a-9 1-1 II-100 B2a-10 1-3 II-100 B2a-11 1-4 II-100 B2a-12 1-5 II-100 B2a-13 1-1 P-101 B2a-14 1-3 P-101

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B2a-15 1-4 P-101 B2a-16 1-5 P-101 B2a-17 1-1 II-102 B2a-18 1-3 II-102 B2a-19 1-4 II-102 B2a-20 1-5 II-102

As described in detail above, components I contain centers of chirality and therefore can be present as racemic mixtures, as pure enantiomers, or in two enantiomers of one component I can be present in any ratio (S) :( R).

In accordance with specific embodiments of the invention, the corresponding component I is present in the form of (S) enantiomer. Specific two-component compositions containing the (S) enantiomer of the corresponding component I are listed in Table. Bs, in which each line corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, they are binary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. Bs: two-component compositions containing one component I in the form of (S) enantiomer (abbreviated as (S) -I, for example, (S) -I-1 for ^) - enantiomer I-1) and one component II, especially binary compositions containing the corresponding component I in the form of (S) enantiomer and II only as active substances.

Table bs

composition (S) -I II Bs-1 (S) -Il II-1 Bs-2 (S) -I-3 II-1 Bs-3 (S) -I-4 II-1 Bs-4 (S) -I-5 II-1 Bs-5 (S) -Il P-2 Bs-6 (S) -I-3 II-2 Bs-7 (S) -I-4 II-2 Bs-8 (S) -I-5 II-2 Bs-9 (S) -Il P-3 Bs-10 (S) -I-3 II-3 Bs-11 (S) -I-4 II-3 Bs-12 (S) -I-5 II-3 Bs-13 (S) -Il P-4 Bs-14 (S) -I-3 II-4 Bs-15 (S) -I-4 II-4 Bs-16 (S) -I-5 II-4 Bs-17 (S) -ii II-5 Bs-18 (S) -I-3 II-5 Bs-19 (S) -I-4 II-5 Bs-20 (S) -I-5 II-5 Bs-21 (S) -Il II-6 Bs-22 (S) -I-3 II-6 Bs-23 (S) -I-4 P-6 Bs-24 (S) -I-5 II-6 Bs-25 (S) -Il II-7 Bs-26 (S) -I-3 II-7 Bs-27 (S) -I-4 II-7 Bs-28 (S) -I-5 II-7 Bs-29 (S) -Il II-8 Bs-30 (S) -I-3 II-8 Bs-31 (S) -I-4 II-8

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Bs-32 (S) -I-5 II-8 Bs-33 (S) -Il II-9 Bs-34 (S) -I-3 II-9 Bs-35 (S) -I-4 II-9 Bs-36 (S) -I-5 II-9 Bs-37 (S) -Il II-10 Bs-38 (S) -I-3 II-10 Bs-39 (S) -I-4 II-10 Bs-40 (8) -1-5 II-10 Bs-41 (S) -Il II-11 Bs-42 (S) -I-3 II-11 Bs-43 (S) -I-4 II-11 Bs-44 (8) -1-5 II-11 Bs-45 (S) -Il 11-12 Bs-46 (S) -I-3 11-12 Bs-47 (S) -I-4 11-12 Bs-48 (S) -I-5 11-12 Bs-49 (S) -Il 11-13 Bs-50 (S) -I-3 11-13 Bs-51 (S) -I-4 11-13 Bs-52 (S) -I-5 11-13 Bs-53 (S) -Il 11-14 Bs-54 (8) -1-3 11-14 Bs-55 (S) -I-4 11-14 Bs-56 (S) -I-5 11-14 Bs-57 (S) -Il 11-15 Bs-58 (S) -I-3 11-15 Bs-59 (8) -1-4 11-15 Bs-60 (S) -I-5 11-15 Bs-61 (S) -Il 11-16 Bs-62 (S) -I-3 11-16 Bs-63 (S) -I-4 11-16 Bs-64 (S) -I-5 11-16 Bs-65 (S) -Il 11-17 Bs-66 (S) -I-3 11-17 Bs-67 (S) -I-4 11-17 Bs-68 (S) -I-5 11-17 Bs-69 (S) -Il 11-18 Bs-70 (S) -I-3 11-18 Bs-71 (8) -1-4 11-18 Bs-72 (5) -1-5 11-18 Bs-73 (S) -Il 11-19 Bs-74 (S) -I-3 11-19 Bs-75 (S) -I-4 11-19 Bs-76 (S) -I-5 11-19 Bs-77 (S) -Il 11-20 Bs-78 (S) -I-3 11-20 Bs-79 (S) -I-4 11-20 Bs-80 (5) -1-5 11-20 Bs-81 (S) -Il 11-21 Bs-82 (5) -1-3 11-21 Bs-83 (S) -I-4 11-21 Bs-84 (S) -I-5 11-21 Bs-85 (S) -Il 11-22 Bs-86 (S) -I-3 11-22 Bs-87 (S) -I-4 11-22 Bs-88 (S) -I-5 11-22 Bs-89 (S) -Il 11-23 Bs-90 (5) -1-3 11-23 Bs-91 (S) -I-4 11-23 Bs-92 (S) -I-5 11-23 Bs-93 (S) -Il 11-24

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composition (S) -I II Bs-94 (S) -I-3 11-24 Bs-95 (8) -1-4 11-24 Bs-96 (S) -I-5 11-24 Bs-97 (S) -ii 11-25 Bs-98 (S) -I-3 11-25 Bs-99 (S) -I-4 11-25 Bs-100 (8) -1-5 11-25 Bs-101 (S) -Il 11-26 Bs-102 (S) -I-3 11-26 Bs-103 (S) -I-4 11-26 Bs-104 (S) -I-5 11-26 Bs-105 (S) -Il 11-27 Bs-106 (S) -I-3 11-27 Bs-107 (S) -I-4 11-27 Bs-108 (S) -I-5 11-27 Bs-109 (S) -Il 11-28 Bs-110 (S) -I-3 11-28 Bs-111 (S) -I-4 11-28 Bs-112 (S) -I-5 11-28 Bs-113 (S) -ii 11-29 Bs-114 (8) -1-3 11-29 Bs-115 (S) -I-4 11-29 Bs-116 (S) -I-5 11-29 Bs-117 (S) -ii 11-30 Bs-118 (S) -I-3 11-30 Bs-119 (8) -1-4 11-30 Bs-120 (S) 4-5 11-30 Bs-121 (S) 4-l 11-31 Bs-122 (S) 4-3 11-31 Bs-123 (S) -I-4 11-31 Bs-124 (8) -1-5 11-31 Bs-125 (S) 4-l 11-32 Bs-126 (S) 4-3 11-32 Bs-127 (S) -I-4 11-32 Bs-128 (8) 4-5 11-32 Bs-129 (S) -Il 11-33 Bs-130 (S) -I-3 11-33 Bs-131 (S) -I-4 11-33 Bs-132 (S) 4-5 11-33 Bs-133 (8) 4-1 11-34 Bs-134 (S) 4-3 11-34 Bs-135 (S) -I-4 11-34 Bs-136 (8) 4-5 11-34 Bs-137 (S) 4-l 11-35 Bs-138 (S) 4-3 11-35 Bs-139 (8) 4-4 11-35

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Bs-140 (S) -I-5 11-35 Bs-141 (S) -Il 11-36 Bs-142 (S) -I-3 11-36 Bs-143 (S) -I-4 11-36 Bs-144 (S) -I-5 11-36 Bs-145 (S) -Il 11-37 Bs-146 (S) -I-3 11-37 Bs-147 (S) -I-4 11-37 Bs-148 (S) -I-5 11-37 Bs-149 (S) -Il 11-38 Bs-150 (S) -I-3 11-38 Bs-151 (S) -I-4 11-38 Bs-152 (S) -I-5 11-38 Bs-153 (S) -Il 11-39 Bs-154 (S) -I-3 11-39 Bs-155 (S) -I-4 11-39 Bs-156 (S) -I-5 11-39 Bs-157 (S) -Il 11-40 Bs-158 (8) -1-3 11-40 Bs-159 (S) -I-4 11-40 Bs-160 (S) -I-5 11-40 Bs-161 (S) -ii 11-41 Bs-162 (S) -I-3 11-41 Bs-163 (8) -1-4 11-41 Bs-164 (S) -I-5 11-41 Bs-165 (S) -ii 11-42 Bs-166 (S) -I-3 11-42 Bs-167 (8) -1-4 11-42 Bs-168 (S) -I-5 11-42 Bs-169 (S) -ii 11-43 Bs-170 (S) -I-3 11-43 Bs-171 (S) -I-4 11-43 Bs-172 (8) -1-5 11-43 Bs-173 (S) -ii 11-44 Bs-174 (S) -I-3 11-44 Bs-175 (S) -I-4 11-44 Bs-176 (S) -I-5 11-44 Bs-177 (S) -Il 11-45 Bs-178 (S) -I-3 11-45 Bs-179 (S) -I-4 11-45 Bs-180 (S) -I-5 11-45 Bs-181 (S) -ii 11-46 Bs-182 (8) -1-3 11-46 Bs-183 (S) -I-4 11-46 Bs-184 (S) -I-5 11-46 Bs-185 (S) -ii 11-47

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Bs-186 (S) -I-3 11-47 Bs-187 (S) -I-4 11-47 Bs-188 (S) -I-5 11-47 Bs-189 (S) -Il 11-48 Bs-190 (8) -1-3 11-48 Bs-191 (S) -I-4 11-48 Bs-192 (S) -I-5 11-48 Bs-193 (S) -ii 11-49 Bs-194 (8) -1-3 11-49 Bs-195 (S) -I-4 11-49 Bs-196 (S) -I-5 11-49 Bs-197 (S) -ii 11-50 Bs-198 (S) -I-3 11-50 Bs-199 (8) -1-4 11-50 Bs-200 (S) -I-5 11-50 Bs-201 (S) -ii 11-51 Bs-202 (S) -I-3 11-51 Bs-203 (S) -I-4 11-51 Bs-204 (8) -1-5 11-51 Bs-205 (S) -ii 11-52 Bs-206 (S) -I-3 11-52 Bs-207 (S) -I-4 11-52 Bs-208 (S) -I-5 11-52 Bs-209 (S) -Il 11-53 Bs-210 (S) -I-3 11-53 Bs-211 (8) -1-4 11-53 Bs-212 (S) -I-5 11-53 Bs-213 (S) -ii 11-54 Bs-214 (S) -I-3 11-54 Bs-215 (S) -I-4 11-54 Bs-216 (8) -1-5 11-54 Bs-217 (S) -ii 11-55 Bs-218 (S) -I-3 11-55 Bs-219 (S) -I-4 11-55 Bs-220 (8) -1-5 11-55 Bs-221 (S) -ii 11-56 Bs-222 (S) -I-3 11-56 Bs-223 (S) -I-4 11-56 Bs-224 (S) -I-5 11-56 Bs-225 (S) -ii 11-57 Bs-226 (S) -I-3 11-57 Bs-227 (S) -I-4 11-57 Bs-228 (S) -I-5 11-57 Bs-229 (S) -ii 11-58 Bs-230 (S) -I-3 11-58 Bs-231 (8) -1-4 11-58

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composition (S) -I II Bs-232 (S) -I-5 11-58 Bs-233 (S) -Il 11-59 Bs-234 (S) -I-3 11-59 Bs-235 (S) -I-4 11-59 Bs-236 (S) -I-5 11-59 Bs-237 (S) -Il 11-60 Bs-238 (S) -I-3 11-60 Bs-239 (S) -I-4 11-60 Bs-240 (S) -I-5 11-60 Bs-241 (S) -Il 11-61 Bs-242 (S) -I-3 11-61 Bs-243 (S) -I-4 11-61 Bs-244 (S) -I-5 11-61 Bs-245 (S) -Il 11-62 Bs-246 (S) -I-3 11-62 Bs-247 (S) -I-4 11-62 Bs-248 (S) -I-5 11-62 Bs-249 (S) -Il 11-63 Bs-250 (S) -I-3 11-63 Bs-251 (S) -I-4 11-63 Bs-252 (S) -I-5 11-63 Bs-253 (S) -Il 11-64 Bs-254 (S) -I-3 11-64 Bs-255 (S) -I-4 11-64 Bs-256 (S) -I-5 11-64 Bs-257 (S) -Il 11-65 Bs-258 (S) -I-3 11-65 Bs-259 (S) -I-4 11-65 Bs-260 (S) -I-5 11-65 Bs-261 (S) -Il 11-66 Bs-262 (S) -I-3 11-66 Bs-263 (S) -I-4 11-66 Bs-264 (S) -I-5 11-66 Bs-265 (S) -Il 11-67 Bs-266 (S) -I-3 11-67 Bs-267 (S) -I-4 11-67 Bs-268 (S) -I-5 11-67 Bs-269 (S) -Il 11-68 Bs-270 (S) -I-3 11-68 Bs-271 (S) -I-4 11-68 Bs-272 (S) -I-5 11-68 Bs-273 (S) -Il 11-69 Bs-274 (S) -I-3 11-69 Bs-275 (S) -I-4 11-69 Bs-276 (S) -I-5 11-69 Bs-277 (S) -Il 11-70

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Bs-278 (S) -I-3 11-70 Bs-279 (S) -I-4 11-70 Bs-280 (S) -I-5 11-70 Bs-281 (S) -Il 11-71 Bs-282 (S) -I-3 11-71 Bs-283 (S) -I-4 11-71 Bs-284 (S) -I-5 11-71 Bs-285 (S) -Il 11-72 Bs-286 (S) -I-3 11-72 Bs-287 (S) -I-4 11-72 Bs-288 (S) -I-5 11-72 Bs-289 (S) -Il 11-73 Bs-290 (S) -I-3 11-73 Bs-291 (S) -I-4 11-73 Bs-292 (S) -I-5 11-73 Bs-293 (S) -Il 11-74 Bs-294 (S) -I-3 11-74 Bs-295 (S) -I-4 11-74 Bs-296 (S) -I-5 11-74 Bs-297 (S) -Il 11-75 Bs-298 (S) -I-3 11-75 Bs-299 (S) -I-4 11-75 Bs-300 (S) -I-5 11-75 Bs-301 (S) -Il 11-76 Bs-302 (S) -I-3 11-76 Bs-303 (S) -I-4 11-76 Bs-304 (S) -I-5 11-76 Bs-305 (S) -Il 11-77 Bs-306 (S) -I-3 11-77 Bs-307 (S) -I-4 11-77 Bs-308 (S) -I-5 11-77 Bs-309 (S) -Il 11-78 Bs-310 (S) -I-3 11-78 Bs-311 (S) -I-4 11-78 Bs-312 (S) -I-5 11-78 Bs-313 (S) -Il 11-79 Bs-314 (S) -I-3 11-79 Bs-315 (S) -I-4 11-79 Bs-316 (S) -I-5 11-79 Bs-317 (S) -Il 11-80 Bs-318 (S) -I-3 11-80 Bs-319 (S) -I-4 11-80 Bs-320 (S) -I-5 11-80 Bs-321 (S) -Il 11-81 Bs-322 (S) -I-3 11-81 Bs-323 (S) -I-4 11-81

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Bs-324 (S) -I-5 11-81 Bs-325 (S) -Il 11-82 Bs-326 (S) -I-3 11-82 Bs-327 (S) -I-4 11-82 Bs-328 (S) -I-5 11-82 Bs-329 (S) -Il 11-83 Bs-330 (S) -I-3 11-83 Bs-331 (S) -I-4 11-83 Bs-332 (S) -I-5 11-83 Bs-333 (S) -Il 11-84 Bs-334 (S) -I-3 11-84 Bs-335 (S) -I-4 11-84 Bs-336 (S) -I-5 11-84 Bs-337 (S) -Il 11-85 Bs-338 (S) -I-3 11-85 Bs-339 (8) -1-4 11-85 Bs-340 (S) -I-5 11-85 Bs-341 (S) -Il 11-86 Bs-342 (8) -1-3 11-86 Bs-343 (S) -I-4 11-86 Bs-344 (8) -1-5 11-86 Bs-345 (S) -Il 11-87 Bs-346 (S) -I-3 11-87 Bs-347 (8) -1-4 11-87 Bs-348 (S) -I-5 11-87 Bs-349 (S) -Il 11-88 Bs-350 (S) -I-3 11-88 Bs-351 (S) -I-4 11-88 Bs-352 (S) -I-5 11-88 Bs-353 (S) -Il 11-89 Bs-354 (S) -I-3 11-89 Bs-355 (S) -I-4 11-89 Bs-356 (S) -I-5 11-89 Bs-357 (S) -Il 11-90 Bs-358 <S) -I-3 11-90 Bs-359 (S) -I-4 11-90 Bs-360 (S) -I-5 11-90 Bs-361 (S) -Il 11-91 Bs-362 (S) -I-3 11-91 Bs-363 (8) -1-4 11-91 Bs-364 (S) -I-5 11-91 Bs-365 (S) -Il 11-92 Bs-366 (S) -I-3 11-92 Bs-367 (S) -I-4 11-92 Bs-368 (S) -I-5 11-92 Bs-369 (S) -Il 11-93 composition (S) -I II Bs-370 (S) -I-3 11-93 Bs-371 (S) -I-4 11-93 Bs-372 (S) -I-5 11-93 Bs-373 (S) -ii 11-94 Bs-374 (S) -I-3 11-94 Bs-375 (S) -I-4 11-94 Bs-376 (8) 4-5 11-94 Bs-377 (S) -Il 11-95 Bs-378 (S) -I-3 11-95 Bs-379 (S) -I-4 11-95 BS-380 (S) -I-5 11-95 Bs-381 (8) 4-1 11-96 Bs-382 (S) -I-3 11-96

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Bs-383 (S) -I-4 11-96 Bs-384 (8) -1-5 11-96 Bs-385 (S) -Il 11-97 Bs-386 (S) -I-3 11-97 Bs-387 (S) -I-4 11-97 Bs-388 (S) -I-5 11-97 Bs-389 (S) -Il 11-98 Bs-390 (S) -I-3 11-98 Bs-391 (S) -I-4 11-98 Bs-392 (S) -I-5 11-98 Bs-393 (S) -Il 11-99 Bs-394 (S) -I-3 11-99 Bs-395 (S) -I-4 11-99 Bs-396 (S) -I-5 11-99 Bs-397 (S) -Il II-100 Bs-398 (S) -I-3 II-100 Bs-399 (S) -I-4 II-100 Bs-400 (8) -1-5 II-100 Bs-401 (S) -Il 11-101 Bs-402 (S) -I-3 11-101 Bs-403 (S) -I-4 11-101 Bs-404 (S) -I-5 11-101 Bs-405 (S) -Il 11-102 Bs-406 (S) -I-3 11-102 Bs-407 (8) -1-4 11-102 Bs-408 (S) -I-5 11-102

In accordance with particular embodiments of the invention, the corresponding component I is present as the (R) enantiomer. Specific two-component compositions containing the (R) enantiomer of the corresponding component I are listed in Table. Br, in which each line corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, they are binary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. Br: two-component compositions containing one component I as (R) enantiomer (abbreviated as (R) -I, for example, (R) -I-1 for ^) - enantiomer I-1) and one component II, especially binary compositions containing the corresponding component I in the form of (R) enantiomer and II only as active substances.

Table br

composition (R) -I II Br-1 (R) -Il II-1 Br-2 (R) -I-3 II-1 Br-3 (R) -I-4 II-1 Br-4 (R) -I-5 II-1 Br-5 (R) -Il II-2 Br-6 (R) -I-3 II-2 Br-7 (R) -I-4 II-2 Br-8 (R) -I-5 II-2 Br-9 (R) -Il II-3 Br-10 (R) -I-3 II-3 Br-11 (R) -I-4 II-3 Br-12 (R) -I-5 II-3 Br-13 (R) -Il II-4 Br-14 (R) -I-3 II-4 Br-15 (R) -I-4 II-4

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composition (R) -I II Br-16 (R) -I-5 II-4 Br-17 (R) -Il II-5 Br-18 (R) -I-3 II-5 Br-19 (R) -I-4 II-5 Br-20 (R) -I-5 II-5 Br-21 (R) -Il II-6 Br-22 (R) -I-3 II-6 Br-23 (R) -I-4 II-6 Br-24 (R) -I-5 II-6 Br-25 (R) -Il II-7 Br-26 (R) -I-3 II-7 Br-27 (R) -I-4 II-7 Br-28 (R) -I-5 II-7 Br-29 (R) -Il II-8 Br-30 (R) -I-3 II-8 Br-31 (R) -I-4 II-8 Br-32 (R) -I-5 II-8 Br-33 (R) -Il II-9 Br-34 (R) -I-3 II-9 Br-35 (R) -I-4 II-9 Br-36 (R) -I-5 II-9 Br-37 (R) -Il II-10 Br-38 (R) -I-3 II-10 Br-39 (R) -I-4 II-10 Br-40 (R) -I-5 II-10 Br-41 (R) -Il II-11 Br-42 (R) -I-3 II-11 Br-43 (R) -I-4 II-11 Br-44 (R) -I-5 II-11 Br-45 (R) -Il 11-12 Br-46 (R) -I-3 11-12 Br-47 (R) -I-4 11-12 Br-48 (R) -I-5 11-12 Br-49 (R) -Il 11-13 Br-50 (R) -I-3 11-13 Br-51 (R) -I-4 11-13 Br-52 (R) -I-5 11-13 Br-53 (R) -Il 11-14 Br-54 (R) -I-3 11-14 Br-55 (R) -I-4 11-14 Br-56 (R) -I-5 11-14 Br-57 (R) -Il 11-15 Br-58 (R) -I-3 11-15 Br-59 (R) -I-4 11-15 Br-60 (R) -I-5 11-15 Br-61 (R) -Il 11-16

- 32 030875

Br-62 (R) -I-3 11-16 Br-63 (R) -I-4 11-16 Br-64 (R) -I-5 11-16 Br-65 (R) -Il 11-17 Br-66 (R) -I-3 11-17 Br-67 (R) -I-4 11-17 Br-68 (R) -I-5 11-17 Br-69 (R) -Il 11-18 Br-70 (R) -I-3 11-18 Br-71 (R) -I-4 11-18 Br-72 (R) -I-5 11-18 Br-73 (R) -Il 11-19 Br-74 (R) -I-3 11-19 Br-75 (R) -I-4 11-19 Br-76 (R) -I-5 11-19 Br-77 (R) -Il 11-20 Br-78 (R) -I-3 11-20 Br-79 (R) -I-4 11-20 Br-80 (R) -I-5 11-20 Br-81 (R) -Il 11-21 Br-82 (R) -I-3 11-21 Br-83 (R) -I-4 11-21 Br-84 (R) -I-5 11-21 Br-85 (R) -Il 11-22 Br-86 (R) -I-3 11-22 Br-87 (R) -I-4 11-22 Br-88 (R) -I-5 11-22 Br-89 (R) -Il 11-23 Br-90 (R) -I-3 11-23 Br-91 (R) -I-4 11-23 Br-92 (R) -I-5 11-23 Br-93 (R) -Il 11-24 Br-94 (R) -I-3 11-24 Br-95 (R) -I-4 11-24 Br-96 (R) -I-5 11-24 Br-97 (R) -Il 11-25 Br-98 (R) -I-3 11-25 Br-99 (R) -I-4 11-25 Br-100 (R) -I-5 11-25 Br-101 (R) -Il 11-26 Br-102 (R) -I-3 11-26 Br-103 (R) -I-4 11-26 Br-104 (R) -I-5 11-26 Br-105 (R) -Il 11-27 Br-106 (R) -I-3 11-27 Br-107 (R) -I-4 11-27

- 33 030875

Br-108 (R) -I-5 11-27 Br-109 (R) -Il 11-28 Br-110 (R) -I-3 11-28 Br-111 (R) -I-4 11-28 Br-112 (R) -I-5 11-28 Br-113 (R) -Il 11-29 Br-114 (R) -I-3 11-29 Br-115 (R) -I-4 11-29 Br-116 (R) -I-5 11-29 Br-117 (R) -Il 11-30 Br-118 (R) -I-3 11-30 Br-119 (R) -I-4 11-30 Br-120 (R) -I-5 11-30 Br-121 (R) -Il 11-31 Br-122 (R) -I-3 11-31 Br-123 (R) -I-4 11-31 Br-124 (R) -I-5 11-31 Br-125 (R) -Il 11-32 Br-126 (R) -I-3 11-32 Br-127 (R) -I-4 11-32 Br-128 (R) -I-5 11-32 Br-129 (R) -Il 11-33 Br-130 (R) -I-3 11-33 Br-131 (R) -I-4 11-33 Br-132 (R) -I-5 11-33 Br-133 (R) -Il 11-34 Br-134 (R) -I-3 11-34 Br-135 (R) -I-4 11-34 Br-136 (R) -I-5 11-34 Br-137 (R) -Il 11-35 Br-138 (R) -I-3 11-35 Br-139 (R) -I-4 11-35 Br-140 (R) -I-5 11-35 Br-141 (R) -Il 11-36 Br-142 (R) -I-3 11-36 Br-143 (R) -I-4 11-36 Br-144 (R) -I-5 11-36 Br-145 (R) -Il 11-37 Br-146 (R) -I-3 11-37 Br-147 (R) -I-4 11-37 Br-148 (R) -I-5 11-37 Br-149 (R) -Il 11-38 Br-150 (R) -I-3 11-38 Br-151 (R) -I-4 11-38 Br-152 (R) -I-5 11-38 Br-153 (R) -Il 11-39

- 34 030875

composition (R) -I II Br-154 (R) -I-3 11-39 Br-155 (R) -I-4 11-39 Br-156 (R) -I-5 11-39 Br-157 (R) -Il 11-40 Br-158 (R) -I-3 11-40 Br-159 (R) -I-4 11-40 Br-160 (R) -I-5 11-40 Br-161 (R) -Il 11-41 Br-162 (R) -I-3 11-41 Br-163 (R) -I-4 11-41 Br-164 (R) -I-5 11-41 Br-165 (R) -Il 11-42 Br-166 (R) -I-3 11-42 Br-167 (R) -I-4 11-42 Br-168 (R) -I-5 11-42 Br-169 (R) -Il 11-43 Br-170 (R) -I-3 11-43 Br-171 (R) -I-4 11-43 Br-172 (R) -I-5 11-43 Br-173 (R) -Il 11-44 Br-174 (R) -I-3 11-44 Br-175 (R) -I-4 11-44 Br-176 (R) -I-5 11-44 Br-177 (R) -Il 11-45 Br-178 (R) -I-3 11-45 Br-179 (R) -I-4 11-45 Br-180 (R) -I-5 11-45 Br-181 (R) -Il 11-46 Br-182 (R) -I-3 11-46 Br-183 (R) -I-4 11-46 Br-184 (R) -I-5 11-46 Br-185 (R) -Il 11-47 Br-186 (R) -I-3 11-47 Br-187 (R) -I-4 11-47 Br-188 (R) -I-5 11-47 Br-189 (R) -Il 11-48 Br-190 (R) -I-3 11-48 Br-191 (R) -I-4 11-48 Br-192 (R) -I-5 11-48 Br-193 (R) -Il 11-49 Br-194 (R) -I-3 11-49 Br-195 (R) -I-4 11-49 Br-196 (R) -I-5 11-49 Br-197 (R) -Il 11-50 Br-198 (R) -I-3 11-50 Br-199 (R) -I-4 11-50

- 35 030875

Br-200 (R) -I-5 11-50 Br-201 (R) -Il 11-51 Br-202 (R) -I-3 11-51 Br-203 (R) -I-4 11-51 Br-204 (R) -I-5 11-51 Br-205 (R) -Il 11-52 Br-206 (R) -I-3 11-52 Br-207 (R) -I-4 11-52 Br-208 (R) -I-5 11-52 Br-209 (R) -Il 11-53 Br-210 (R) -I-3 11-53 Br-211 (R) -I-4 11-53 Br-212 (R) -I-5 11-53 Br-213 (R) -Il 11-54 Br-214 (R) -I-3 11-54 Br-215 (R) -I-4 11-54 Br-216 (R) -I-5 11-54 Br-217 (R) -Il 11-55 Br-218 (R) -I-3 11-55 Br-219 (R) -I-4 11-55 Br-220 (R) -I-5 11-55 Br-221 (R) -Il 11-56 Br-222 (R) -I-3 11-56 Br-223 (R) -I-4 11-56 Br-224 (R) -I-5 11-56 Br-225 (R) -Il 11-57 Br-226 (R) -I-3 11-57 Br-227 (R) -I-4 11-57 Br-228 (R) -I-5 11-57 Br-229 (R) -Il 11-58 Br-230 (R) -I-3 11-58 Br-231 (R) -I-4 11-58 Br-232 (R) -I-5 11-58 Br-233 (R) -Il 11-59 Br-234 (R) -I-3 11-59 Br-235 (R) -I-4 11-59 Br-236 (R) -I-5 11-59 Br-237 (R) -Il 11-60 Br-238 (R) -I-3 11-60 Br-239 (R) -I-4 11-60 Br-240 (R) -I-5 11-60 Br-241 (R) -Il 11-61 Br-242 (R) -I-3 11-61 Br-243 (R) -I-4 11-61 Br-244 (R) -I-5 11-61 Br-245 (R) -Il 11-62

- 36 030875

Br-246 (R) -I-3 11-62 Br-247 (R) -I-4 11-62 Br-248 (R) -I-5 11-62 Br-249 (R) -Il 11-63 Br-250 (R) -I-3 11-63 Br-251 (R) -I-4 11-63 Br-252 (R) -I-5 11-63 Br-253 (R) -Il 11-64 Br-254 (R) -I-3 11-64 Br-255 (R) -I-4 11-64 Br-256 (R) -I-5 11-64 Br-257 (R) -Il 11-65 Br-258 (R) -I-3 11-65 Br-259 (R) -I-4 11-65 Br-260 (R) -I-5 11-65 Br-261 (R) -Il 11-66 Br-262 (R) -I-3 11-66 Br-263 (R) -I-4 11-66 Br-264 (R) -I-5 11-66 Br-265 (R) -Il 11-67 Br-266 (R) -I-3 11-67 Br-267 (R) -I-4 11-67 Br-268 (R) -I-5 11-67 Br-269 (R) -Il 11-68 Br-270 (R) -I-3 11-68 Br-271 (R) -I-4 11-68 Br-272 (R) -I-5 11-68 Br-273 (R) -Il 11-69 Br-274 (R) -I-3 11-69 Br-275 (R) -I-4 11-69 Br-276 (R) -I-5 11-69 Br-277 (R) -Il 11-70 Br-278 (R) -I-3 11-70 Br-279 (R) -I-4 11-70 Br-280 (R) -I-5 11-70 Br-281 (R) -Il 11-71 Br-282 (R) -I-3 11-71 Br-283 (R) -I-4 11-71 Br-284 (R) -I-5 11-71 Br-285 (R) -Il 11-72 Br-286 (R) -I-3 11-72 Br-287 (R) -I-4 11-72 Br-288 (R) -I-5 11-72 Br-289 (R) -Il 11-73 Br-290 (R) -I-3 11-73 Br-291 (R) -I-4 11-73

- 37 030875

composition (R) -I II Br-292 (R) -I-5 11-73 Br-293 (R) -Il 11-74 Br-294 (R) -I-3 11-74 Br-295 (R) -I-4 11-74 Br-296 (R) -I-5 11-74 Br-297 (R) -Il 11-75 Br-298 (R) -I-3 11-75 Br-299 (R) -I-4 11-75 Br-300 (R) -I-5 11-75 Br-301 (R) -Il 11-76 Br-302 (R) -I-3 11-76 Br-303 (R) -I-4 11-76 Br-304 (R) -I-5 11-76 Br-305 (R) -Il 11-77 Br-306 (R) -I-3 11-77 Br-307 (R) -I-4 11-77 Br-308 (R) -I-5 11-77 Br-309 (R) -Il 11-78 Br-310 (R) -I-3 11-78 Br-311 (R) -I-4 11-78 Br-312 (R) -I-5 11-78 Br-313 (R) -Il 11-79 Br-314 (R) -I-3 11-79 Br-315 (R) -I-4 11-79 Br-316 (R) -I-5 11-79 Br-317 (R) -Il 11-80 Br-318 (R) -I-3 11-80 Br-319 (R) -I-4 11-80 Br-320 (R) -I-5 11-80 Br-321 (R) -Il 11-81 Br-322 (R) -I-3 11-81 Br-323 (R) -I-4 11-81 Br-324 (R) -I-5 11-81 Br-325 (R) -Il 11-82 Br-326 (R) -I-3 11-82 Br-327 (R) -I-4 11-82 Br-328 (R) -I-5 11-82 Br-329 (R) -Il 11-83 Br-330 (R) -I-3 11-83 Br-331 (R) -I-4 11-83

- 38 030875

Br-332 (R) -I-5 11-83 Br-333 (R) -Il 11-84 Br-334 (R) -I-3 11-84 Br-335 (R) -I-4 11-84 Br-336 (R) -I-5 11-84 Br-337 (R) -Il 11-85 Br-338 (R) -I-3 11-85 Br-339 (R) -I-4 11-85 Br-340 (R) -I-5 11-85 Br-341 (R) -Il 11-86 Br-342 (R) -I-3 11-86 Br-343 (R) -I-4 11-86 Br-344 (R) -I-5 11-86 Br-345 (R) -Il 11-87 Br-346 (R) -I-3 11-87 Br-347 (R) -I-4 11-87 Br-348 (R) -I-5 11-87 Br-349 (R) -Il 11-88 Br-350 (R) -I-3 11-88 Br-351 (R) -I-4 11-88 Br-352 (R) -I-5 11-88 Br-353 (R) -Il 11-89 Br-354 (R) -I-3 11-89 Br-355 (R) -I-4 11-89 Br-356 (R) -I-5 11-89 Br-357 (R) -Il 11-90 Br-358 (R) -I-3 11-90 Br-359 (R) -I-4 11-90 Br-360 (R) -I-5 11-90 Br-361 (R) -Il 11-91 Br-362 (R) -I-3 11-91 Br-363 (R) -I-4 11-91 Br-364 (R) -I-5 11-91 Br-365 (R) -Il 11-92 Br-366 (R) -I-3 11-92 Br-367 (R) -I-4 11-92 Br-368 (R) -I-5 11-92 Br-369 (R) -Il 11-93 Br-370 (R) -I-3 11-93 Br-371 (R) -I-4 11-93

- 39 030875 dov:

Br-372 (R) -I-5 11-93 Br-373 (R) -Il 11-94 Br-374 (R) -I-3 11-94 Br-375 (R) -I-4 11-94 Br-376 (R) -I-5 11-94 Br-377 (R) -Il 11-95 Br-378 (R) -I-3 11-95 Br-379 (R) -I-4 11-95 Br-380 (R) -I-5 11-95 Br-381 (R) -Il 11-96 Br-382 (R) -I-3 11-96 Br-383 (R) -I-4 11-96 Br-384 (R) -I-5 11-96 Br-385 (R) -Il 11-97 Br-386 (R) -I-3 11-97 Wg-387 (R) -I-4 11-97 Wg-388 (R) -I-5 11-97 Wg-389 (R) -Il 11-98 Br-390 (R) -I-3 11-98 Br-391 (R) -I-4 11-98 Br-392 (R) -I-5 11-98 Br-393 (R) -Il 11-99 Br-394 (R) -I-3 11-99 Br-395 (R) -I-4 11-99 Br-396 (R) -I-5 11-99 Br-397 (R) -Il II-100 Br-398 (R) -I-3 II-100 Br-399 (R) -I-4 II-100 Vg-400 (R) -I-5 II-100 Br-401 (R) -Il 11-101 Br-402 (R) -I-3 11-101 Vg-403 (R) -I-4 11-101 Vg-404 (R) -I-5 11-101 Br-405 (R) -Il 11-102 Br-406 (R) -I-3 11-102 Wg-407 (R) -I-4 11-102 Vg-408 (R) -I-5 11-102

In another embodiment, component II is selected from the following fungicit

II-3 azoxystrobin II-5 benzovindiflupir II-6 bixafen II-7 Boskalid II-8 carbendazim II-11 chlorothalonil 11-16 cyprodinil 11-21 difenoconazole 11-26 epoxiconazole 11-32 fenpropimorph 11-33 flu asinam 11-37 fluoxastrobin 11-39 fluzilazole 11-42 fluxapiroxad 11-44 fosetyl-A1 11-50 isopyrazam 11-53 kresoxim-methyl 11-60 metconazole 11-62 metrafenon 11-66 pyraclostrobin 11-69 phosphorous acid

- 40 030875

P-70 potassium salt of phosphorous acid P-71 sodium phosphate salt P-72 pentiopyrad P-74 prochloraz P-76 propiconazole P-78 prothioconazole P-84 spiroxamine P-85 sulfur P-86 tebuconazole P-92 trifloxystrobin P-98 2,6-dimethyl-1H, 5H [1,4] dithiino [2,3-s: 5.6 s'] dipyrrole1,3,5,7 (2H, 6H) -tetraon

In accordance with yet another embodiment, component II is selected from the following fungicides:

II-5 benzovindiflupir P-6 bixafen P-7 Boskalid II-8 carbendazim II-I chlorothalonil II-16 cyprodinil P-21 difenoconazole P-26 epoxiconazole P-32 fenpropimorph P-33 flu asinam P-37 fluoxastrobin P-42 fluxapiroxad P-44 fosetyl-A1 II-53 kresoxim-methyl P-60 metconazole P-62 metrafenon P-72 pentiopyrad P-74 prochloraz P-76 propiconazole P-78 prothioconazole P-69 phosphorous acid P-70 potassium salt of phosphorous acid P-71 sodium phosphate salt P-66 pyraclostrobin P-84 spiroxamine P-85 sulfur P-86 tebuconazole P-92 trifloxystrobin

- 41 030875

P-98 2,6-dimethyl-1H, 5H [1,4] dithiino [2,3-s: 5.6 s'] dipyrrole1,3,5,7 (2H, 6H) -tetraon

In accordance with another preferred embodiment of the invention, component II is selected from the following growth regulators:

II-1a mepiquat chloride,

P-2a hlormekv chloride,

II-3a trinexapac-ethyl,

P-4a prohexadione-calcium,

P-5a is the phone.

Accordingly, particularly preferred two-component compositions are given in table. B3, in which each row corresponds to one embodiment of compositions in accordance with the invention. According to one particular aspect, they are binary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. B3: two-component compositions containing one component I and one growth regulator as component II, in particular binary compositions containing the corresponding component I and II only as active substances.

Table b3

composition I II OT-1 1-1 II-1a OT-2 1-3 II-1a VZ-Z 1-4 II-1a OT-4 1-5 II-1a OT-5 1-1 P-2a OT-6 1-3 P-2a OT-7 1-4 P-2a OT-8 1-5 P-2a OT-9 1-1 P-over OT-10 1-3 P-over OT-11 1-4 P-over VZ-12 1-5 P-over B3-13 1-1 P-4a VZ-14 1-3 P-4a OT-15 1-4 P-4a OT-16 1-5 P-4a OT-17 1-1 II-5 a OT-18 1-3 II-5 a OT-19 1-4 II-5 a VZ-20 1-5 II-5 a

As described in detail above, components I contain centers of chirality and therefore can be present as racemic mixtures, as pure enantiomers, or in two enantiomers of one component I can be present in any ratio (S) :( R).

In accordance with specific embodiments of the invention, the corresponding component I is present in the form of (S) enantiomer. Specific two-component compositions containing the (S) enantiomer of the corresponding component I are listed in Table. B3s, in which each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, they are binary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. B3s: two-component compositions containing one component I as (S) enantiomer (abbreviated as (S) -I, for example, (S) -I-1 for ^) - enantiomer I-1) and one component II, especially binary compositions containing the corresponding component I in the form of (S) enantiomer and II only as active substances.

- 42 030875

Table b3s

COMPOSITION (S) -I II B3s-1 (S) -Il Ii-la B3s-2 (S) -I-3 Ii-la B3s-3 (S) -I-4 Ii-la B3s-4 (S) -I-5 Ii-la B3s-5 (S) -ii II-2a B3s-6 (S) -I-3 II-2a B3s-7 (S) -I-4 II-2a B3s-8 (S) -I-5 II-2a B3s-9 (S) -ii II-3a B3s-10 (S) -I-3 II-3a B3S-11 (S) -I-4 II-3a B3s-12 (S) -I-5 II-3a B3s-13 (S) -ii II-4a B3S-14 (S) -I-3 II-4a B3s-15 (S) -I-4 II-4a B3s-16 (S) -I-5 II-4a B3S-17 (S) -ii II-5 a B3s-18 (S) -I-3 II-5 a B3s-19 (S) -I-4 II-5 a B3S-20 (S) -I-5 II-5 a

In accordance with particular embodiments of the invention, the corresponding component I is present as the (R) enantiomer. Specific two-component compositions containing the (R) enantiomer of the corresponding component I are listed in Table. B3r, in which each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, they are binary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. B3r: two-component compositions containing one component I in the form of (R) enantiomer (abbreviated as (R) -I, for example, (R) -I-1 for Y) of the enantiomer I-1) and one component II, especially binary compositions containing the corresponding component I in the form of (R) enantiomer and II only as active substances.

Table b3r

COMPOSITION (R) -I II B3s-21 (R) -Il Ii-la B3s-22 (R) -I-3 Ii-la B3s-23 (R) -I-4 Ii-la B3s-24 (R) -I-5 Ii-la B3s-25 (R) -Il II-2a B3s-26 (R) -I-3 II-2a B3s-27 (R) -I-4 II-2a B3s-28 (R) -I-5 II-2a B3s-29 (R) -Il II-3a B3s-3O (R) -I-3 II-3a B3s-31 (R) -I-4 II-3a B3s-32 (R) -I-5 II-3a B3s-33 (R) -Il II-4a B3s-34 (R) -I-3 II-4a B3s-35 (R) -I-4 II-4a B3s-36 (R) -I-5 II-4a B3s-37 (R) -Il II-5 a B3s-38 (R) -I-3 II-5 a B3s-39 (R) -I-4 II-5 a B3s-40 (R) -I-5 II-5 a

In accordance with another preferred embodiment of the invention, component II is selected from the following herbicides:

II-lb glyphosate II-2b Imazamox II-3b Dicamba II-4b glufosinate

- 43 030875

II-5b imazapik

II-6b imazapir

II-7b Imazethapyr

Accordingly, particularly preferred two-component compositions are given in table. B4, in which each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, they are binary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. B4: two-component compositions containing one component I and one herbicide as component II, especially binary compositions containing the corresponding component I and II only as active ingredients.

Table b4

composition I II B4-1 1-1 II-lb B4-2 1-3 II-lb B4-3 1-4 II-lb B4-4 1-5 II-lb B4-5 1-1 II-2b B4-6 1-3 II-2b B4-7 1-4 II-2b B4-8 1-5 II-2b B4-9 1-1 II-3b B4-10 1-3 II-3b B4-11 1-4 II-3b B4-12 1-5 II-3b B4-13 1-1 II-4b B4-14 1-3 II-4b B4-15 1-4 II-4b B4-16 1-5 II-4b B4-17 1-1 II-5b B4-18 1-3 II-5b B4-19 1-4 II-5b B4-20 1-5 II-5b B4-21 1-1 II-6b B4-22 1-3 II-6b B4-23 1-4 II-6b B4-24 1-5 II-6b B4-25 1-1 II-7b B4-26 1-3 II-7b B4-27 1-4 II-7b B4-28 1-5 II-7b

As described in detail above, components I contain centers of chirality and therefore can be present as racemic mixtures, as pure enantiomers, or in two enantiomers of one component I can be present in any ratio (S) :( R).

In accordance with specific embodiments of the invention, the corresponding component I is present in the form of (S) enantiomer. Specific two-component compositions containing the (S) enantiomer of the corresponding component I are listed in Table. B4s, in which each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, they are binary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. B4s: two-component compositions containing one component I as (S) enantiomer (abbreviated as (S) -I, for example, (S) -I-1 for ^) - enantiomer I-1) and one component II, especially binary compositions containing the corresponding component I in the form of (S) enantiomer and II only as active substances.

Table b4s

composition (S) -I II B4s-1 (S) -Il II-lb B4s-2 (S) -I-3 II-lb B4s-3 (S) -I-4 II-lb

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composition (S) -I II B4s-4 (S) -I-5 II-lb B4s-5 (S) -Il II-2b B4s-6 (S) -I-3 II-2b B4s-7 (S) -I-4 II-2b B4s-8 (S) -I-5 II-2b B4s-9 (S) -Il II-3b B4S-10 (S) -I-3 II-3b B4s-ll (S) -I-4 II-3b B4S-12 (S) -I-5 II-3b B4s-13 (S) -Il II-4b B4s-14 (S) -I-3 II-4b B4s-15 (S) -I-4 II-4b B4S-16 (8) -1-5 II-4b B4S-17 (S) -Il II-5 b B4S-18 (S) -I-3 II-5 b B4S-19 (S) -I-4 II-5 b B4s-20 (S) -I-5 II-5 b B4s-21 (S) -Il II-6b B4S-22 (S) -I-3 II-6b B4s-23 (S) -I-4 II-6b B4s-24 (S) -I-5 II-6b B4S-25 (S) -Il II-7b B4s-26 (S) -I-3 II-7b B4S-27 (S) -I-4 II-7b B4s-28 (8) -1-5 II-7b

In accordance with particular embodiments of the invention, the corresponding component I is present as the (R) enantiomer. Specific two-component compositions containing the (R) enantiomer of the corresponding component I are listed in Table. B4r, in which each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, they are binary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. B4r: two-component compositions containing one component I as (R) enantiomer (abbreviated as (R) -I, for example, (R) -I-1 for the ^ -enantiomer I-1) and one component II, especially binary compositions containing the corresponding component I in the form of (R) enantiomer and II only as active substances.

Table b4r

composition (R) -I II B4r-1 (R) -Il II-lb B4r-2 (R) -I-3 II-lb B4r-3 (R) -I-4 II-lb B4r-4 (R) -I-5 II-lb B4r-5 (R) -Il II-2b B4r-6 (R) -I-3 II-2b B4r-7 (R) -I-4 II-2b B4r-8 (R) -I-5 II-2b B4r-9 , (R) -I-1 II-3b B4r-15 (R) -I-4 II-4b B4r-16 (R) -I-5 II-4b B4r-17 (R) -Il II-5b B4r-18 (R) -I-3 II-5b B4r-19 (R) -I-4 II-5b B4r-20 (R) -I-5 II-5b B4r-21 (R) -Il II-6b B4r-22 (R) -I-3 II-6b B4r-23 (R) -I-4 II-6b B4r-10 (R) -I-3 II-3b B4r-ll (R) -I-4 II-3b B4r-12 (R) -I-5 II-3b B4r-13 (R) -Il II-4b B4r-14 (R) -I-3 II-4b B4r-24 (R) -I-5 II-6b B4r-25 (R) -Il II-7b B4r-26 (R) -I-3 II-7b B4r-27 (R) -I-4 II-7b B4r-28 (R) -I-5 II-7b

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In accordance with another preferred embodiment of the invention, component II is selected from the following insecticides:

II-1c abamectin

P-2c acephate

P-Zs acetamiprid

P-4c aldicarb

P-5c alpha-cypermethrin

P-bs betacyfluthrin

P-7s bifenthrin

P-8s Carbofuran

P-9s chlorfenapyr

P-10c chlorpyrifos

II-11 with Clotianid in

II-12c tiazipir

P-13c digital metro

II-14s deltamethrin

II-15c dimetoat

P-16s dinotefuran

P-17s endosulfan

P-18s esfenvalerat

II-19c fenbutatin oxide

P-20s fipronil

P-21c flonikamid

P-22c flubendiamide

P-23s hydramethylnon

P-24c Imidacloprid

P-25c indoxacarb

P-26s lambda-cyhalothrin

P-27s metaflumizon

P-28s methamidophos

P-29s methoxyfenozide

P-30s nitenpyram

P-31s Pyrimikarb

P-32s pymetrozine

P-ZZS pyridaben

P-34s Rinaksapir

P-35c alcohol tetramate

P-Zbs spinosad

P-37s spinetoram

P-38s tebufenpyrad

P-39s Tefluthrin

P-40s terbufos

P-41s tiakloprid

P-42c Thiamethoxam

P-43 with zetacypermethrin

P-44c [(3S, 4R, 4aR, 6S, 6aS, 12R, 12aS, 12bS) -3 (cyclopropanecarbonyloxy) -6,12-dihydroxy-4,6a, 12b-trimethyl 11-oxo-9- (pyridine-3 (yl) -1,2,3,4,4a, 5,6,6a, 12a, 12b-decahydro11H, 12H-benzo [£] pyrano [4,3-b] chromen-4-yl] methyl cyclopropanecarboxylate.

In accordance with an even more specific embodiment of its implementation component II is selected from the following insecticides:

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II-1 with abamectin

P-3 with

P-5s

Fsb

P-7s

P-9s acetamiprid alpha-cypermethrin betaacifluthrin bifenthrin chlorfenapyr

P-10c chlorpyrifos

P-11s clothianidin

P-12s tsiazipir

P-13c digital metro

P-14s deltamethrin

P-16s dinotefuran

P-18s esfenvalerat

P-20s fipronil

P-21c flonikamid

P-22c flubendiamide

P-24c Imidacloprid

P-25c indoxacarb

P-26s lambda-cyhalothrin

P-27s metaflumizon

P-29s methoxyfenozide

P-30s nitenpyram

P-31 with Pirimikarb

P-32s pymetrozine

P-ZZS pyridaben

P-34s Rinaksapir

P-3 5c spirotramat

P-Zbs spinosad

P-37s spinetoram

P-3 8c tebufenpyrad

P-3 9c Tefluthrin

P-41s tiakloprid

P-42c Thiamethoxam

P-43 with zetacypermethrin, and

P-44c [(3S, 4R, 4aR, 6S, 6aS, 12R, 12aS, 12bS) -3 (cyclopropanecarbonyloxy) -6,12-dihydroxy-4, ba, 12b-trimethyl

11-oxo-9- (pyridin-3-yl) -1,2,3,4,4a, 5,6,6a, 12a, 12b-decahydro11H, 12H-benzo [£] pyrano [4,3-b] chromen-4-yl] methyl cyclopropanecarboxylate.

Accordingly, particularly preferred two-component compositions are given in table. B5, in which each line corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, they are binary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions individualized in this table represents embodiments of the present invention.

Tab. B5: two-component compositions containing one component I and one insecticide as component II, in particular binary compositions containing the corresponding component I and II only as active substances.

- 47 030875

Table b5

composition I II B5-1 1-1 II-1c B5-2 1-3 II-1c B5-3 1-4 II-1c B5-4 1-5 II-1c B5-5 1-1 P-2s B5-6 1-3 P-2s B5-7 1-4 P-2s B5-8 1-5 P-2s B5-9 1-1 P-ZS B5-10 1-3 P-ZS B5-11 1-4 P-ZS B5-12 1-5 P-ZS B5-13 1-1 P-4c B5-14 1-3 P-4c B5-15 1-4 P-4s B5-16 1-5 P-4c B5-17 1-1 II-5s B5-18 1-3 II-5s B5-19 1-4 II-5s B5-20 1-5 II-5s B5-21 1-1 Fsb B5-22 1-3 Fsb B5-23 1-4 Fsb B5-24 1-5 Fsb B5-25 1-1 P-7s B5-26 1-3 P-7s B5-27 1-4 P-7s B5-28 1-5 P-7s B5-29 1-1 II-8s B5-30 1-3 II-8s B5-31 1-4 II-8s B5-32 1-5 II-8s B5-33 1-1 P-9s B5-34 1-3 P-9s B5-35 1-4 P-9s B5-36 1-5 P-9s B5-37 1-1 II-Yus B5-38 1-3 II-Yus

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B5-39 1-4 II-lOc B5-40 1-5 II-lOc B5-41 1-1 II-1 lc B5-42 1-3 Ii-llc B5-43 1-4 Ii-llc B5-44 1-5 Ii-llc B5-45 1-1 II-12c B5-46 1-3 II-12c B5-47 1-4 II-12c B5-48 1-5 II-12c B5-49 1-1 II-13c B5-50 1-3 II-13c B5-51 1-4 II-13c B5-52 1-5 II-13c B5-53 1-1 II-14c B5-54 1-3 II-14c B5-55 1-4 II-14c B5-56 1-5 II-14c B5-57 1-1 II-15c B5-58 1-3 II-15c B5-59 1-4 II-15c B5-60 1-5 II-15c B5-61 1-1 II-16c B5-62 1-3 II-16c B5-63 1-4 II-16c B5-64 1-5 II-16c B5-65 1-1 II-17c B5-66 1-3 II-17c B5-67 1-4 II-17c B5-68 1-5 II-17c B5-69 1-1 II-18c B5-70 1-3 II-18c B5-71 1-4 II-18c B5-72 1-5 II-18c B5-73 1-1 II-19c B5-74 1-3 II-19c B5-75 1-4 II-19c B5-76 1-5 II-19c

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B5-77 1-1 II-20c B5-78 1-3 II-20c B5-79 1-4 II-20c B5-80 1-5 II-20c B5-81 1-1 P-21 c B5-82 1-3 P-21 c B5-83 1-4 P-21 c B5-84 1-5 P-21 c B5-85 1-1 II-22c B5-86 1-3 II-22c B5-87 1-4 II-22c B5-88 1-5 II-22c B5-89 1-1 P-23 c B5-90 1-3 P-23 c B5-91 1-4 P-23 c B5-92 1-5 P-23 c B5-93 1-1 II-24c B5-94 1-3 II-24c B5-95 1-4 II-24c B5-96 1-5 II-24c B5-97 1-1 II-25c B5-98 1-3 II-25c B5-99 1-4 II-25c B5-100 1-5 II-25c B5-101 1-1 II-26c B5-102 1-3 II-26c B5-103 1-4 II-26c B5-104 1-5 II-26c B5-105 1-1 II-27c B5-106 1-3 II-27c B5-107 1-4 II-27c B5-108 1-5 II-27c B5-109 1-1 II-28c B5-110 1-3 II-28c B5-111 1-4 II-28c B5-112 1-5 II-28c B5-113 1-1 II-29c B5-114 1-3 II-29c composition I II B5-115 1-4 II-29c B5-116 1-5 II-29c B5-117 1-1 P-ZOS B5-118 1-3 P-ZOS B5-119 1-4 P-ZOS B5-120 1-5 P-ZOS B5-121 1-1 P-31 with B5-122 1-3 P-31s B5-123 1-4 P-31s B5-124 1-5 P-31s B5-125 1-1 P-32s B5-126 1-3 P-32s B5-127 1-4 P-32s B5-128 1-5 P-32s B5-129 1-1 P-33 with B5-130 1-3 P-33 with B5-131 1-4 P-33 with B5-132 1-5 P-33 with B5-133 1-1 P-34s B5-134 1-3 P-34s B5-135 1-4 P-34s

- 50 030875

B5-136 1-5 P-34s B5-137 1-1 P-35s B5-138 1-3 P-35s B5-139 1-4 P-35s B5-140 1-5 P-35s B5-141 1-1 P-Zbs B5-142 1-3 P-Zbs B5-143 1-4 P-Zbs B5-144 1-5 P-Zbs B5-145 1-1 P-37s B5-146 1-3 P-37s B5-147 1-4 P-37s B5-148 1-5 P-37s B5-149 1-1 PZZ 8s B5-150 1-3 PZZ 8s B5-151 1-4 PZZ 8s B5-152 1-5 PZZ 8s B5-153 1-1 P-39s B5-154 1-3 P-39s B5-155 1-4 P-39s B5-156 1-5 P-39s B5-157 1-1 P-40s B5-158 1-3 P-40s B5-159 1-4 P-40s B5-160 1-5 P-40s B5-161 1-1 P-41s B5-162 1-3 P-41s B5-163 1-4 P-41s B5-164 1-5 P-41s B5-165 1-1 P-42s B5-166 1-3 P-42s B5-167 1-4 P-42s B5-168 1-5 P-42s B5-169 1-1 P-43 with B5-170 1-3 P-43 with B5-171 1-4 P-43 with B5-172 1-5 P-43 with B5-173 1-1 P-44s B5-174 1-3 P-44s B5-175 1-4 P-44s B5-176 1-5 P-44s

As described in detail above, components I contain centers of chirality and therefore can be present as racemic mixtures, as pure enantiomers, or in two enantiomers of one component I can be present in any ratio (S) :( R).

In accordance with particular embodiments of the invention, the corresponding component I is present as a (S) enantiomer. Specific two-component compositions containing the (S) enantiomer of the corresponding component I are listed in Table. B5s, in which each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, they are binary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. B5s: two-component compositions containing one component I as (S) enantiomer (abbreviated as (S) -I, for example, (S) -I-1 for ^) - enantiomer I-1) and one component II, especially binary compositions containing the corresponding component I in the form of (S) enantiomer and II only as active substances.

- 51 030875

Table b5s

composition (S) -I II B5s-1 (S) -Il II-lc B5s-2 (S) -I-3 II-lc B5s-3 (S) -I-4 II-lc B5s-4 (S) -I-5 II-lc B5s-5 (S) -Il II-2c B5s-6 (S) -I-3 II-2c B5s-7 (S) -I-4 II-2c B5s-8 (S) -I-5 II-2c B5s-9 (S) -Il II-3c B5s-10 (S) -I-3 II-3c B5s-ll (S) -I-4 II-3c B5s-12 (S) -I-5 II-3c B5s-13 (S) -Il II-4c B5s-14 (S) -I-3 II-4c B5s-15 (S) -I-4 II-4c B5s-16 (S) -I-5 II-4c B5s-17 (S) -Il II-5 c B5s-18 (S) -I-3 II-5 c B5s-19 (S) -I-4 II-5 c B5s-20 (S) -I-5 II-5 c B5s-21 (S) -Il II-6c B5s-22 (S) -I-3 II-6c B5s-23 (S) -I-4 II-6c B5s-24 (S) -I-5 II-6c B5s-25 (S) -Il II-7c B5s-26 (S) -I-3 II-7c B5s-27 (S) -I-4 II-7c B5s-28 (S) -I-5 II-7c B5s-29 (S) -Il II-8 c B5s-30 (S) -I-3 II-8 c B5s-31 (S) -I-4 II-8 c B5s-32 (S) -I-5 II-8 c B5s-33 (S) -Il II-9c B5s-34 (S) -I-3 II-9c B5s-35 (S) -I-4 II-9c B5s-36 (S) -I-5 II-9c B5s-37 (S) -Il II-10c B5s-38 (S) -I-3 II-10c B5s-39 (S) -I-4 II-10c B5s-40 (S) -I-5 II-10c B5s-41 (S) -Il Ii-llc B5s-42 (S) -I-3 Ii-llc

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B5s-43 (S) -I-4 Ii-llc B5s-44 (S) -I-5 Ii-llc B5s-45 (S) -Il II-12c B5s-46 (S) -I-3 II-12c B5s-47 (S) -I-4 II-12c B5s-48 (8) -1-5 II-12c B5s-49 (S) -Il II-13c B5s-50 (S) -I-3 II-13c B5s-51 (S) -I-4 II-13c B5s-52 (S) -I-5 II-13c B5s-53 (S) -ii II-14c B5s-54 (S) -I-3 II-14c B5s-55 (8) -1-4 II-14c B5s-56 (S) -I-5 II-14c B5s-57 (S) -ii II-15c B5s-58 (S) -I-3 II-15c B5s-59 (S) -I-4 II-15c B5s-60 (S) -I-5 II-15c B5s-61 (S) -ii II-16c B5s-62 (S) -I-3 II-16c B5s-63 (8) -1-4 II-16c B5s-64 (S) -I-5 II-16c B5s-65 (S) -ii II-17c B5s-66 (S) -I-3 II-17c B5s-67 (8) -1-4 II-17c B5s-68 (S) -I-5 II-17c B5s-69 (S) -ii II-18c B5s-70 (8) -1-3 II-18c B5s-71 (S) -I-4 II-18c B5s-72 (S) -I-5 II-18c B5s-73 (S) -ii II-19c B5s-74 (8) -1-3 II-19c B5s-75 (S) -I-4 II-19c B5s-76 (S) -I-5 II-19c B5s-77 (S) -ii II-20c B5s-78 (S) -I-3 II-20c B5s-79 (S) -I-4 II-20c B5s-80 (S) -I-5 II-20c B5s-81 (S) -ii P-21 c B5s-82 (8) -1-3 P-21 c B5s-83 (S) -I-4 P-21 c B5s-84 (S) -I-5 P-21 c

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B5s-85 (S) -Il II-22c B5s-86 (S) -I-3 II-22c B5s-87 (S) -I-4 II-22c B5s-88 (S) -I-5 II-22c B5s-89 (S) -Il P-23 c B5s-90 (S) -I-3 P-23 c B5s-91 (S) -I-4 P-23 c B5s-92 (S) -I-5 P-23 c B5s-93 (S) -Il II-24c B5s-94 (S) -I-3 II-24c B5s-95 (S) -I-4 II-24c B5s-96 (S) -I-5 II-24c B5s-97 (S) -Il II-25c B5s-98 (S) -I-3 II-25c B5s-99 (S) -I-4 II-25c B5s-100 (S) -I-5 II-25c B5s-101 (S) -Il II-26c B5s-102 (S) -I-3 II-26c B5s-103 (S) -I-4 II-26c B5s-104 (S) -I-5 II-26c B5s-105 (S) -Il II-27c B5s-106 (S) -I-3 II-27c B5s-107 (S) -I-4 II-27c B5s-108 (S) -I-5 II-27c B5s-109 (S) -Il II-28c B5S-110 (S) -I-3 II-28c B5S-111 (S) -I-4 II-28c B5S-112 (S) -I-5 II-28c B5S-113 (S) -Il II-29c B5S-114 (S) -I-3 II-29c B5S-115 (S) -I-4 II-29c B5S-116 (S) -I-5 II-29c B5S-117 (S) -Il II-ZOS B5S-118 (S) -I-3 II-ZOS B5S-119 (S) -I-4 II-ZOS B5S-120 (S) -I-5 II-ZOS B5S-121 (S) -Il P-31 c B5s-122 (S) -I-3 P-31 c B5s-123 (S) -I-4 P-31 c B5s-124 (S) -I-5 P-31 c B5s-125 (S) -Il II-32c B5s-126 (S) -I-3 II-32c composition (S) -I II B5s-127 (S) -I-4 II-32c B5s-128 (S) -I-5 II-32c B5s-129 (S) -Il II-ZZS B5s-13O (S) -I-3 II-ZZS B5S-131 (S) -I-4 II-ZZS B5s-132 (S) -I-5 II-ZZS B5s-133 (S) -Il II-34c B5s-134 (S) -I-3 II-34c B5s-135 (S) -I-4 II-34c B5s-136 (S) -I-5 II-34c B5S-137 (S) -Il II-35c B5s-138 (S) -I-3 II-35c B5s-139 (S) -I-4 II-35c B5s-140 (S) -I-5 II-35c B5S-141 (S) -Il II-Zbs B5S-142 (8) -1-3 P-Zbs B5s-143 (S) -I-4 II-Zbs

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B5S-144 (S) -I-5 P-Zbs B5S-145 (S) -Il II-37c B5S-146 (S) -I-3 II-37c B5S-147 (S) -I-4 II-37c B5S-148 (S) -I-5 II-37c B5S-149 (S) -Il II-38c B5S-150 (S) -I-3 II-38c B5S-151 (S) -I-4 II-38c B5S-152 (S) -I-5 II-38c B5S-153 (S) -Il II-39c B5S-154 (S) -I-3 II-39c B5S-155 (S) -I-4 II-39c B5S-156 (S) -is II-39c B5S-157 (S) -Il II-40c B5S-158 (S) -I-3 II-40c B5S-159 (S) -I-4 II-40c B5S-160 (S) -I-5 II-40c B5S-161 (S) -Il P-41 c B5S-162 (S) -I-3 P-41 c B5S-163 (S) -I-4 P-41 c B5S-164 (S) -is P-41 c B5S-165 (S) -Il II-42c B5S-166 (S) -I-3 II-42c B5S-167 (S) -I-4 II-42c B5S-168 (S) -I-5 II-42c B5S-169 (S) -Il P-43 c B5S-170 (S) -I-3 P-43 c B5S-171 (S) -I-4 P-43 c B5S-172 (S) -I-5 P-43 c B5S-173 (S) -Il II-44c B5S-174 (S) -I-3 II-44c B5S-175 (S) -I-4 II-44c B5S-176 (S) -I-5 II-44c

In accordance with particular embodiments of the invention, the corresponding component I is present as the (R) enantiomer. Specific two-component compositions containing the (R) enantiomer of the corresponding component I are listed in Table. B5r, in which each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, they are binary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. B5r: two-component compositions containing one component I as (S) enantiomer (abbreviated as (R) -I, for example, (R) -I-1 for the ^ -enantiomer I-1) and one component II, in particular binary compositions containing the corresponding component I in the form of (R) enantiomer and II only as active substances.

Table b5r

composit 55 030875

composition (R) -I II B5r-4 (R) -I-5 II-lc B5r-5 (R) -Il II-2c B5r-6 (R) -I-3 II-2c B5r-7 (R) -I-4 II-2c B5r-8 (R) -I-5 II-2c B5r-9 (R) -Il II-3c B5r-10 (R) -I-3 II-3c B5r-ll (R) -I-4 II-3c B5r-12 (R) -I-5 II-3c B5r-13 (R) -Il II-4c B5r-14 (R) -I-3 II-4c B5r-15 (R) -I-4 II-4c B5r-16 (R) -I-5 II-4c B5r-17 (R) -Il II-5 c B5r-18 (R) -I-3 II-5 c B5r-19 (R) -I-4 II-5 c B5r-20 (R) -I-5 II-5 c B5r-21 (R) -Il II-6c B5r-22 (R) -I-3 II-6c B5r-23 (R) -I-4 II-6c B5r-24 (R) -I-5 II-6c B5r-25 (R) -Il II-7c B5r-26 (R) -I-3 II-7c B5r-27 (R) -I-4 II-7c B5r-28 (R) -I-5 II-7c B5r-29 (R) -Il II-8 c B5r-30 (R) -I-3 II-8 c B5r-31 (R) -I-4 II-8 c B5r-32 (R) -I-5 II-8 c B5r-33 (R) -Il II-9c B5r-34 (R) -I-3 II-9c B5r-35 (R) -I-4 II-9c B5r-36 (R) -I-5 II-9c B5r-37 (R) -Il II-10c B5r-38 (R) -I-3 II-10c B5r-39 (R) -I-4 II-10c B5r-40 (R) -I-5 II-10c B5r-41 (R) -Il Ii-llc B5r-42 (R) -I-3 Ii-llc B5r-43 (R) -I-4 Ii-llc B5r-44 (R) -I-5 Ii-llc B5r-45 (R) -Il II-12c B5r-46 (R) -I-3 II-12c B5r-47 (R) -I-4 II-12c B5r-48 (R) -I-5 II-12c B5r-49 (R) -Il II-13c

- 56 030875

B5r-50 (R) -I-3 II-13c B5r-51 (R) -I-4 II-13c B5r-52 (R) -I-5 II-13c B5r-53 (R) -Il II-14c B5r-54 (R) -I-3 II-14c B5r-55 (R) -I-4 II-14c B5r-56 (R) -I-5 II-14c B5r-57 (R) -Il II-15c B5r-58 (R) -I-3 II-15c B5r-59 (R) -I-4 II-15c B5r-60 (R) -I-5 II-15c B5r-61 (R) -Il II-16c B5r-62 (R) -I-3 II-16c B5r-63 (R) -I-4 II-16c B5r-64 (R) -I-5 II-16c B5r-65 (R) -Il II-17c B5r-66 (R) -I-3 II-17c B5r-67 (R) -I-4 II-17c B5r-68 (R) -I-5 II-17c B5r-69 (R) -Il II-18c B5r-70 (R) -I-3 II-18c B5r-71 (R) -I-4 II-18c B5r-72 (R) -I-5 II-18c B5r-73 (R) -Il II-19c B5r-74 (R) -I-3 II-19c B5r-75 (R) -I-4 II-19c B5r-76 (R) -I-5 II-19c B5r-77 (R) -Il II-20c B5r-78 (R) -I-3 II-20c B5r-79 (R) -I-4 II-20c B5r-80 (R) -I-5 II-20c B5r-81 (R) -Il P-21 c B5r-82 (R) -I-3 P-21 c B5r-83 (R) -I-4 P-21 c B5r-84 (R) -I-5 P-21 c B5r-85 (R) -Il II-22c B5r-86 (R) -I-3 II-22c B5r-87 (R) -I-4 II-22c B5r-88 (R) -I-5 II-22c B5r-89 (R) -Il P-23 c B5r-90 (R) -I-3 P-23 c B5r-91 (R) -I-4 P-23 c B5r-92 (R) -I-5 P-23 c B5r-93 (R) -Il II-24c B5r-94 (R) -I-3 II-24c B5r-95 (R) -I-4 II-24c

- 57 030875

B5r-96 (R) -I-5 II-24c B5r-97 (R) -Il II-25c B5r-98 (R) -I-3 II-25c B5r-99 (R) -I-4 II-25c V5G-100 (R) -I-5 II-25c V5G-101 (R) -Il II-26c V5G-102 (R) -I-3 II-26c V5G-103 (R) -I-4 II-26c V5G-104 (R) -I-5 II-26c V5G-105 (R) -Il II-27c B5r-106 (R) -I-3 II-27c V5G-107 (R) -I-4 II-27c V5G-108 (R) -I-5 II-27c V5G-109 (R) -Il II-28c V5G-110 (R) -I-3 II-28c V5G-111 (R) -I-4 II-28c V5G-112 (R) -I-5 II-28c V5G-113 (R) -Il II-29c V5G-114 (R) -I-3 II-29c V5G-115 (R) -I-4 II-29c V5G-116 (R) -I-5 II-29c V5G-117 (R) -Il II-ZOS V5G-118 (R) -I-3 II-ZOS V5G-119 (R) -I-4 II-ZOS B5r-120 (R) -I-5 II-ZOS B5r-121 (R) -Il P-31 c B5r-122 (R) -I-3 P-31 c B5r-123 (R) -I-4 P-31 c B5r-124 (R) -I-5 P-31 c B5r-125 (R) -Il II-32c V5G-126 (R) -I-3 II-32c B5r-127 (R) -I-4 II-32c B5r-128 (R) -I-5 II-32c B5r-129 (R) -Il II-ZZS B5r-130 (R) -I-3 II-ZZS B5r-131 (R) -I-4 P-ZZS B5r-132 (R) -I-5 P-ZZS B5r-133 (R) -Il II-34c B5r-134 (R) -I-3 II-34c B5r-135 (R) -I-4 II-34c V5G-136 (R) -I-5 II-34c B5r-137 (R) -Il II-35c B5r-138 (R) -I-3 II-35c B5r-139 (R) -I-4 II-35c B5r-140 (R) -I-5 II-35c B5r-141 (R) -Il P-Zbs compo (R) -I II position B5r-142 (R) -I-3 P-Zbs B5r-143 (R) -I-4 P-Zbs B5r-144 (R) -I-5 P-Zbs B5r-145 (R) -Il P-37s V5G-146 (R) -I-3 P-37s B5r-147 (R) -I-4 P-37s B5r-148 (R) -I-5 P-37s B5r-149 (R) -Il P-3 8c B5r-150 (R) -I-3 P-3 8c B5r-151 (R) -I-4 P-3 8c B5r-152 (R) -I-5 P-3 8c B5r-153 (R) -Il P-39s V5G-154 (R) -I-3 P-39s B5r-155 (R) -I-4 P-39s B5r-156 (R) -I-5 P-39s B5r-157 (R) -Il P-40s B5r-158 (R) -I-3 P-40s B5r-159 (R) -I-4 P-40s V5G-160 (R) -I-5 P-40s B5r-161 (R) -Il P-41s V5G-162 (R) -I-3 P-41s V5G-163 (R) -I-4 P-41s V5G-164 (R) -I-5 P-41s V5G-165 (R) -Il P-42s

- 58 030875

V5G-166 (R) -I-3 II-42c V5g-167 (R) -I-4 II-42c V5g-168 (R) -I-5 II-42c V5g-169 (R) -Il P-43 c V5g-170 (R) -I-3 P-43 c V5G-171 (R) -I-4 P-43 c V5g-172 (R) -I-5 P-43 c V5g-173 (R) -Il II-44c V5g-174 (R) -I-3 II-44c V5g-175 (R) -I-4 II-44c V5G-176 (R) -I-5 II-44c

In accordance with another aspect, the present invention relates to three-part compositions, i.e. compositions containing component I, i.e. Compound I, in particular a compound selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described in detail above, component II selected from groups A) to O) and component III, also selected from groups A) to O), with component II and III are not the same. In particular, component II is in each case selected from preferred groups or preferred active compounds, as indicated above for component II, and component III is selected from groups A) to O), in particular from preferred active compounds used as component III, as defined further.

According to a particular embodiment thereof, just three active compounds, as defined, are present in these compositions (in this context, ternary compositions are also referred to). Of course, the composition may contain any kind of additives or the like, as described in detail below, in order to provide a composition suitable for use in agriculture.

In the three-component compositions according to the invention, the weight ratio of component I to the first other active compound (component II) depends on the properties of the corresponding active compounds and in particular can be 1000: 1 to 1: 1000, in particular 500: 1 to 1: 500. Preferably, it is in the range from 1: 100 to 100: 1, preferably in the range from 1:50 to 50: 1 and in particular in the range from 1:20 to 20: 1. Preferably, the weight ratio may be in the range from 1:10 to 10: 1, preferably from 1: 3 to 3: 1, in particular from 1: 2 to 2: 1. The weight ratio of component I to the second other active compound (component III) in particular can be from 1000: 1 to 1: 1000, in particular from 500: 1 to 1: 500. Preferably it is in the range from 1: 100 to 100: 1, preferably in the range from 1:50 to 50: 1 and in particular in the range from 1:20 to 20: 1. Preferably, the weight ratio may be in the range from 1:10 to 10: 1, preferably from 1: 3 to 3: 1, in particular from 1: 2 to 2: 1. The weight ratio of the first other active compound (component II) to the second other active compound (component III) is preferably in the range from 1: 100 to 100: 1, often in the range from 1:50 to 50: 1, preferably in the range from 1: 20 to 20: 1, and in particular in the range from 1:10 to 10: 1. Preferably, the weight ratio may be in the range from 1: 3 to 3: 1, in particular from 1: 2 to 2: 1.

In accordance with one embodiment, the present invention relates to three-component compositions comprising component I, i.e. Compound I, in particular a compound selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described above, component II is selected from groups A) to I) and component III selected from groups A) to I).

One particular embodiment relates to ternary compositions in which Component I, as defined above, and Component II are selected from group A) of complex III respiration inhibitors in Q _o the site and component III is selected from group B) inhibitors of sterol biosynthesis (fungicides IHD). In accordance with one particular embodiment, component II is selected from the group of strobilurins. In particular, component II is selected from the group consisting of azoxystrobin, dimoxystrobin, fluoxastrobin, kresoxim-methyl, orysastrobin, picoxystrobin, pyraclostrobin and trifloxystrobin. According to another particular embodiment, the component III is selected from C14 inhibitors group demethylase (fungicides IDM), particularly selected from cyproconazole, difenoconazole, epoxiconazole, fluquinconazole, fluzilazol, flutriafol, metconazole, myclobutanil, penconazole, propiconazole, prothioconazole, triadimefon, triadimenol, tebuconazole, tetraconazole, triticonazole and prochloraz. In accordance with another specific embodiment, they are triple compositions which, as active compounds, contain in each case only the indicated three active components I, II and III.

Another specific embodiment relates to ternary compositions in which Component I, as defined above, and Component II and Component III are selected from the respiration inhibitors of Complex III in the Qo region, with Components II and III being different. In particular, component II and III are selected from the group of strobilurins. In particular, component II and III are selected from the group consisting of azoxystrobin, dimoxystrobin, fluoxastrobin, kresoxim-methyl, orysastrobin, picoxystrobin, pyraclostrobin and trifloxystrobin. In accordance with a specific embodiment, they are ternary compositions which, as active compounds, contain in each case only the indicated three active components I, II and III.

- 59 030875

Yet another specific embodiment relates to three-component compositions in which Component I, as defined above, Component II is selected from inhibitors of Sterol biosynthesis (IHD fungicides) and Component III is selected from respiration inhibitors of Complex II. In accordance with one particular embodiment of its implementation, component II is selected from the group of C14 demethylase inhibitors (IDM fungicides), and one selected from cyproconazole, difenoconazole, epoxiconazole, fluquinconazole, fluzilazole, flutriafol, metconazole, myclobutanil, penconazole, distilled, penosilazole, flutriafol, metconazole, myclobutanil, penconazole, distilled, pentaminol, fluconazole, flutriafol, metconazole, myclobutanil, penconazole, pyllazone, floucylazole, flutriafol, metconazole, myclobutanil, penconazole. triadimenol, tebuconazole, tetraconazole, triticonazole and prochloraz. In accordance with another specific embodiment, component III is selected from the group of carboxamides, especially selected from benodanil, benzovindiflupir, bixafen, boscalid, carboxin, fenfuram, fluopiram, flutolanil, fluxapyroxad, furametpyrpur, isopirazam, meprail, flupapyramide, fuxapiroxad, furametpyrpum, isopirazam, mepharyl tecophthalam, tifluzamida, N- (4'trifluoromethylthiobiphenyl-2-yl) -3-difluoromethyl-1-methyl-1H-pyrazole-4-carboxamide, N- (2- (1,3,3trimethylbutyl) phenyl) -1.3 -dimethyl-5-fluoro-1H-pyrazole-4-carboxamide, 3 - (difluoromethyl) -1 -methyl-N (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide, 3- (trifluoromethyl) -1-methyl-H- (1,1,3-trimethylindan4-yl) pyrazole-4-carboxamide, 1, 3-dimethyl-H- (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide, 3 (trifluoromethyl) -1,5-dimethyl-H- (1,1,3-trimethylindan-4-yl ) pyrazole-4-carboxamide, 3- (difluoromethyl) 1,5-dimethyl-H- (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide and 1,3,5-trimethyl-H- ( 1,1,3trimethylindan-4-yl) pyrazole-4-carboxamide, especially selected from benzovindiflupir, bixaphene, boscalid, fluopyram, fluxapiroxad, isopyrazam, penflufen, pentiopyrad and sedaxane. In accordance with another specific embodiment, they are ternary compositions which, as active compounds, contain in each case only the indicated three active components I, II and III.

Yet another specific embodiment relates to ternary compositions in which Component I, as defined above, Component II is selected from the complex III respiration inhibitors in Q _o the site and component III is selected from complex II respiration inhibitors. In particular, component II is selected from the group of strobilurins. In particular, component II is selected from the group consisting of azoxystrobin, dimoxystrobin, fluoxastrobin, kresoxim-methyl, orysastrobin, picoxystrobin, pyraclostrobin and trifloxystrobin. In accordance with another specific embodiment, component III is selected from the group of carboxamides, especially selected from benodanil, benzovindiflupir, bixafen, boscalid, carboxin, fenfuram, fluopiram, flutolanil, fluxapyroxad, furametpyrpur, isopirazam, meprail, flupapyramide, fuxapiroxad, furametpyrpum, isopirazam, mepharyl tecophthalam, tifluzamida, N- (4'-trifluoromethylthiobiphenyl-2-yl) -3-difluoromethyl-1-methyl1H-pyrazole-4-carboxamide, H- (2- (1,3,3-trimethylbutyl) phenyl) -1, 3-dimethyl-5-fluoro-1H-pyrazole-4 carboxamide, 3- (difluoromethyl) -1-methyl-H- ( 1,1,3 -trimethylindan-4 -yl) pyrazole-4-carboxamide, 3 (trifluoromethyl) -1-methyl-H- (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide, 1, 3-dimethyl-H- (1,1,3trimethylindan-4-yl) pyrazole-4-carboxamide, 3- (trifluoromethyl) -1,5-dimethyl-H- (1,1,3-trimethylindan-4yl) pyrazole- 4-carboxamide, 3- (difluoromethyl) -1,5-dimethyl-H- (1,1,3-trimethylindan-4-yl) pyrazole-4 carboxamide and 1,3,5-trimethyl-H- (1,1, 3-trimethylindan-4-yl) pyrazole-4-carboxamide, especially selected from benzovindiflupir, bixafen, boscalid, fluopyram, fluxapiroxad, isopyrazam, penflufen, pentiopyrad and sedaxan. In accordance with another specific embodiment, they are triple compositions which, as active compounds, contain in each case only the indicated three active components I, II and III.

Yet another specific embodiment relates to three-component compositions in which component I, as defined above, component II is selected from the respiratory inhibitors of complex III in the Qo site and component III is selected from inhibitors of sterol biosynthesis (IBS fungicides), in particular delta-14 inhibitors - reductase. In a specific embodiment, component II is selected from the group of strobilurins. In particular, component II is selected from the group consisting of azoxystrobin, dimoxystrobin, fluoxastrobin, kresoxim-methyl, orysastrobin, picoxystrobin, pyraclostrobin and trifloxystrobin. In another specific embodiment, component III is fenpropimorph. In accordance with another specific embodiment, they are ternary compositions which, as active compounds, contain in each case only the indicated three active components I, II and III.

Yet another specific embodiment relates to three-component compositions in which Component I, as defined above, Component II is selected from the respiratory inhibitors of Complex III in the Qo region and Component III is selected from the inhibitors of cell division and cytoskeleton. In a specific embodiment, component II is selected from the group of strobilurins. In particular, component II is selected from the group consisting of azoxystrobin, dimoxystrobin, fluoxastrobin, kresoxim-methyl, orysastrobin, picoxystrobin, pyraclostrobin and trifloxystrobin. In another specific embodiment, component III is selected from tubulin inhibitors, such as carbendazim. In another specific embodiment, component III selects cell division inhibitors, such as tubulin inhibitors, such as metrafenone. In accordance with another specific embodiment, they are triple compositions which, as an acting

- 60 030875 compounds, in each case contain only the specified three active components I, II and III.

Yet another specific embodiment relates to three-component compositions in which Component I, as defined above, Component II is selected from the complex III respiration inhibitors in Q _o plot and component III is selected from inhibitors with multilateral action. In a specific embodiment, component II is selected from the group of strobilurins. In particular, component II is selected from the group consisting of azoxystrobin, dimoxystrobin, fluoxastrobin, kresoxim-methyl, orysastrobin, picoxystrobin, pyraclostrobin and trifloxystrobin. In another specific embodiment, component III is selected from captan, Bordeaux mixture, copper acetate, copper hydroxide, copper oxychloride, copper sulfate, sulfur, (three) basic copper sulfate, mancozeb, maneb, metiram, propineb, thiram, captafol, folpet, chlorothalonil, dichlofluanid, dithianon, dodin and 2,6-dimethyl-1H, 5H- [1,4] dithiino [2,3-c: 5,6-с '] dipyrrole-1,3,5,7 (2H, 6H) -tetraone, in particular captan, Bordeaux mixture, copper hydroxide, copper oxychloride, copper sulfate, (three) basic copper sulfate, mancozeba, maneb, metiram, folpet, chlorothalonil, di ianona, dodine and 2,6-dimethyl-1H, 5H- [1.4] diτiino [2,3-c: 5,6-c '] dipyrrole-1,3,5,7 (2H, 6H) tetraone. In one specific embodiment, component III in these compositions is chlorothalonil. In accordance with another specific embodiment, they are ternary compositions which, as active compounds, contain in each case only the indicated three active components I, II and III.

Yet another specific embodiment relates to ternary compositions in which Component I, as defined above, Component II is selected from Sterol biosynthesis inhibitors (IHD fungicides), in particular from C14 demethylase inhibitors (IDM fungicides), and Component III is selected from inhibitors with multilateral action. In a specific embodiment, component II is selected from cyproconazole, fluquinconazole, metconazole, propiconazole and prothioconazole. One particularly acceptable component II is fluquinconazole. Component III is particularly selected from captan, Bordeaux mixture, copper acetate, copper hydroxide, copper oxychloride, copper sulfate, sulfur, (three) basic copper sulfate, mancozeb, maneb, metiram, propineb, thiram, captafol, folpeta, chlorothalonil, dichlofluanide, dithianon, dodine and 2,6-dimethyl-1H, 5H- [1.4] dithiino [2,3-c: 5,6-с '] dipyrrole-1,3,5,7 (2H, 6H) -tetraone, features of captan, Bordeaux mixture, copper hydroxide, copper oxychloride, copper sulfate, (three) basic copper sulfate, mancozeb, maneb, metiram, folpet, chlorothalonil, dithianon, dodine and 2,6-dimethyl-1H, 5H- [1,4] dithiino [2,3-c: 5.6 s'] dipyrrole-1,3,5,7 (2H, 6H) -tetraone.

Yet another specific embodiment relates to ternary compositions in which Component I, as defined above, Component II is selected from Sterol biosynthesis inhibitors (IHD fungicides), in particular from C14 demethylase inhibitors (IDM fungicides), and Component III is selected from signaling inhibitors transduction. In a specific embodiment, component II is triticonazole and component III is fludioxonil.

In accordance with one embodiment, the present invention relates to three-component compositions comprising component I, i.e. Compound I, in particular a compound selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described above, component II selected from groups A) to I) and component III, selected from groups A) to I).

In accordance with a separate embodiment of the three-component compositions according to the invention containing three fungicides, the composition contains compound I, in particular a compound selected from compounds I-1, I-3, I-4 and I-5 as component I, fluxapiroxad as component II and pyraclostrobin or fenpropimorph as component III. In another specific embodiment of the present invention, the three-part compositions according to the invention contain a compound I, in particular a compound selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described in detail above, in as component I, prothioconazole as component II, and fluxapiroxad, bixafen, pyraclostrobin, dimoxystrobin, picoxystrobin, fluoxastrobin, fluopyram or penflufen as component III. In these three-component compositions, the weight ratio of component I to component II is from 1:20 to 20: 1. Preferably, the weight ratio may be in the range from 1:10 to 10: 1, preferably from 1: 3 to 3: 1, in particular from 1: 2 to 2: 1. The weight ratio of component I to component III is in the range from 1:20 to 20: 1. Preferably, the weight ratio may be in the range from 1:10 to 10: 1, preferably from 1: 3 to 3: 1, in particular from 1: 2 to 2: 1. The weight ratio of component I to component III is in the range from 1:20 to 20: 1, and especially in the range from 1:10 to 10: 1. Preferably, the weight ratio may be in the range from 1: 3 to 3: 1, in particular from 1: 2 to 2: 1. These three-component compositions containing two fungicides as components I and II are particularly suitable as fungicides, as described in detail below.

In accordance with another embodiment, the present invention relates to the use of said compositions to combat the pathogens of cereal crops, in which the components are used in the above weight ratios. In accordance with one particular embodiment, said compositions are used to combat wheat pathogens, with pathogens

- 61 030875 wheat in particular selected from Septoria tritici, Stagonospora nodorum, Pyrenophora tritici repentis, Puccinia recondita, Puccinia striiformis and Blumeria graminis. In addition, these compositions are suitable for controlling wheat pathogens selected from Fusarium culmorum, Fusarium graminearum and Pseudocercosporella herpotrichoides. In accordance with another particular embodiment, said compositions are suitable for controlling barley pathogens selected from Pyrenophera teres, Rhychosporium secalis, Puccinia hordei and Blumeria graminis. In addition, these compositions are suitable for the control of barley pathogens selected from Ramularia collo-cygni and Pseudocercosporella herpotrichoides.

In accordance with another specific embodiment, said compositions are suitable for controlling soybean pathogens, especially those selected from phakopsora pachyrizi, P. meibomiae and Microsphaera diffusa. In soy these compositions can also be effectively used to combat the so-called CPL (Leaf Disease Complex), for example, against Septoria glycines, Cercospora kikuchii, C. sojina, Corynespora cassiicola and / or Alternaria spp.

In accordance with another specific embodiment, said compositions are suitable for controlling maize pathogens, especially those selected from Cercospora zeae-maydis, Puccinia sorghi and Helminthosporium maydis.

In accordance with another specific embodiment, said compositions are suitable for controlling sugar beet pathogens, especially those selected from Cercospora beticola, Erysiphe betae, Ramularia betae and Uromyces betae.

In accordance with another specific embodiment, said compositions are used to combat nut pathogens, especially those selected from Mycosphaerella arachidis (= Cercospora) and Puccinia arachidis.

In accordance with another specific embodiment, said compositions are used to combat the pathogens of oilseed rape and canola, particularly those selected from Sclerotinia sclerotiorum, Leptosphearia maculans and Alternaria alternate.

In accordance with another specific embodiment, said compositions are used to combat rice pathogens, especially those selected from Rhizoctonia solani and Pyricularia oryzae.

In accordance with another specific embodiment, said compositions are used to combat pathogens in certain cultivated plants, such as, for example, in turf, potatoes, tomatoes, pumpkin, grapevines, apples, ornamental plants, and bananas. Turf pathogens, which can be controlled using these compositions in accordance with the present invention, are particularly selected from Sclerotinia homeocarpon and Rhizoctonia solani. Potato and tomato pathogens that can be controlled in accordance with the present invention are particularly selected from Alternaria solani, A. alternata and Rhizoctonia solani. The pumpkin pathogen, which can be controlled using these compositions in accordance with the present invention, is in particular Sphaerotheca fuliginea. The grape pathogen, which can be controlled using these compositions in accordance with the present invention, is in particular Uncinula necator and Botrytis cinerea. The apple pathogen, which can be controlled using these compositions in accordance with the present invention, is in particular Podosphaera leucotricha and Venturia inaequalis. Pathogens of ornamental plants, which can be controlled using these compositions in accordance with the present invention, are particularly chosen from Sphaerotheca fuliginea, Diplocarpon spp., Alternaria spp. and Sclerotinia spp. Banana pathogens, which can be controlled using these compositions in accordance with the present invention, are particularly selected from Mycosphaerella fijiensis and Mycosphaerella musicola.

In accordance with one embodiment of the invention, the present invention relates to the composition of component I, fluxapiroxad and pyraclostrobin, in which two of the components are present in a weight ratio from 20: 1 to 1:20, more specifically from 5: 1 to 1: 5, in particular from 2: 1 to 1: 2. In particular, the weight ratios for the three components make up component I to component II from 1: 1 to 2: 1; component I to component III from 1: 1 to 2: 1 and component II to component III from 1: 1 to 1: 2. It may be preferable if the components are present in a weight ratio of from 1: 1: 1 to 2: 1: 2 or from 2: 1: 2 to 2: 1: 1. The components are especially used in synergistic effective amounts.

In accordance with another embodiment, the present invention relates to a composition comprising component I, fluxapiroxad and fenpropimorph, in which two of the components are present in a weight ratio of from 20: 1 to 1:20, more specifically from 5: 1 to 1: 5, in features from 2: 1 to 1: 2. In particular, the weight ratios for the three components make up component I to component II from 1: 1 to 2: 1; component I to component III from 1: 3 to 1: 6 and component II to component III from 1: 3 to 1: 6. It may be preferable if the components are present in a weight ratio of from 1: 1: 3 to 1: 1: 6. The components are especially used in synergistic effective amounts.

Another embodiment of the invention relates to three-component compositions containing component I, i.e. Compound I, in particular a compound selected from compounds I-1, I-2, I-3, I-4, I-5, I-6, I-7, I-8, I-9, I-11, I-13, I-14, I-15 and I-16 or from any group of compounds I described in detail above, and components II and III, in which at least one of components II and III is selected from group M), regulators growth, especially selected from hlormekvat (hlormekv chloride), mepikva

- 62 030875 ta (mepiquat chloride), paclobutrazole, prohexadione (prohexadione-calcium), trinexapac-ethyl and uniconazole. In accordance with one particular embodiment, component II is selected from groups A) to K) or any of its preferred embodiments given in this context, and component III is selected from group M), growth regulators, especially selected from chloromevat (hlormekvat chloride), mepiquat (mepiquat chloride), paclobutrazole, prohexadione (prohexadion-calcium), trinexapac-ethyl and uniconazole. In accordance with another special variant of its implementation, both components II and III are selected from group M), growth regulators, in particular selected from chlormequat (chlormequer chloride), mepiquat (mepiquat chloride), paclobutrazole, prohexadione (prohexadione-calcium), trinexapac- Ethyl and Uniconazole.

Another embodiment of the invention relates to three-component compositions containing component I, i.e. Compound I, in particular a compound selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described above, component II selected from any of groups A) to I) or any preferred variant of its implementation, and component III, selected from the group of insecticides O).

In accordance with one more specific embodiment, component I is as defined above, component II is selected from complex III respiratory inhibitors in Q _o especially selected from the group of strobilurins, and component III is an insecticide, in particular one of the insecticides as defined below. In particular, component II is selected from the group consisting of azoxystrobin, dimoxystrobin, fluoxastrobin, kresoxim-methyl, orysastrobin, picoxystrobin, pyraclostrobin and trifloxystrobin.

Yet another specific embodiment relates to ternary compositions in which component I is as defined above, component II is selected from sterol biosynthesis inhibitors (IHD fungicides) and component III is an insecticide, in particular one of the insecticides defined below. In particular, component II is selected from the group of C14 inhibitors; triticonazole and prochloraz.

Another embodiment of the invention relates to three-component compositions containing component I, i.e. Compound I, in particular a compound selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described in detail above, and components II and III, which are selected from insecticides of group O).

In the three-part compositions in accordance with the invention, containing an insecticide, an insecticide, in accordance with one embodiment, is selected from the group of organo (thio) phosphates, especially those selected from the group that includes acephate, chlorpyrifos, pyrifos, dichlorvos, dimethoate, fenitrothion, methamidophos, methidation, methyl parathion, monocrotophos, forate, profenofos and terbufos. In accordance with another specific embodiment, the insecticide in the three-component compositions is selected from the group of carbamates, especially selected from the group that includes aldicarb, carbaryl, carbofuran, carbosulfan, metomyl and thiodicarb. According to another particular embodiment of the insecticide in the ternary composition is selected from the group of pyrethroids, especially selected from the group consisting of: bifenthrin, cyfluthrin, cypermethrin, alpha-cypermethrin, zeta-cypermethrin, deltamethrin, esfenvalerate, lambda-cyhalothrin and tefluthrin. In accordance with another specific embodiment, the insecticide in the three-part compositions is selected from the group of insect growth regulator, especially those selected from the group that includes lufenuron and spirototramat. In accordance with another specific embodiment, the insecticide in the three-component compositions is selected from the group of nicotinic receptor agonists / antagonists, in particular those selected from the group that includes: clothianidine, imidacloprid, thiamethoxam and thiacloprid. In accordance with another specific embodiment, the insecticide in the three-part compositions is selected from the group of GABA antagonists, especially those selected from the group that includes: endosulfan and fipronil. In accordance with another specific embodiment, the insecticide in the three-component compositions is selected from the group of macrocyclic lactones, especially selected from the group that includes: abamectin, emamectin, spinosad, and spinetoram. In accordance with another specific embodiment, the insecticide in the three-part compositions is hydramethylnon. In accordance with another specific embodiment, the insecticide in the three-part compositions is fenbutatin oxide. In accordance with another specific embodiment, the insecticide in the three-component compositions is selected from the group that includes chlorfenapyr, indoxacarb, metaflumizone, flonicamid, flubendiamide, cyazipyr (HGW86), and cymetlufen.

Particularly preferred fungicidal components III used in the compositions according to the invention are compounds selected from the group of the following compounds:

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II-1 ametokradin

P-2 amisulbrom

P-3 azoxystrobin

P-4 bentiavalikarb

P-5 benzovindiflupir

P-6 Bixafen

P-7 Boskalid

P-8 carbendazim

II-11 chlorothalonil P-12 cyazofamide

P-13 cyflufenamide

II-15 cyproconazole

II-16 cyprodinil

P-21 difenokonazol

P-23 dimoxystrobin

P-25 dithianon

P-26 epoxyconazole

P-27 etaboksam

P-31 fenpropidin

P-32 fenpropimorph

P-33 fluazinam

P-34 Fludioxonil

P-35 flupycolide

P-36fluopyram

P-37 fluoxastrobin

P-38 fluquinconazole

P-39fluzylazole

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P-42 fluxapiroxad

P-43 folpet

P-44 fosetyl-A1

P-50 Isopyrazam

P-51 iprovalicarb

P-53 Kresoxim-methyl

P-54 mankozeb

P-60 metconazole

P-61 metiram

P-62 metrafenone

P-65 proquinazid

P-66 Pyraclostrobin

P-68 penflufen

P-69 phosphorous acid

P-70 potassium salt of phosphorous acid

P-71 sodium phosphate salt

P-72 penthiopyrad

P-73 picoxystrobin

P-74 prokhloraz

P-76 propiconazole

P-78 Prothioconazole

P-83 silthiofam

P-84 spiroxamine

P-85 sulfur

P-86 tebuconazole

P-89 thiophanate methyl

P-92 Trifloxystrobin

P-93 triticonazole

P-97soxamide

Particularly preferred fungicidal components III are compounds selected from the group of the following compounds:

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N-azoxystrobin

P-5 benzovindiflupir

P-6 Bixafen

P-7 Boskalid

P-8 carbendazim

II-11 chlorothalonil

II-15 cyproconazole

II-16 cyprodinil

P-21 difenokonazol

P-26 epoxyconazole

P-32 fenpropimorph

P-33 fluazinam

P-34 Fludioxonil

P-37 fluoxastrobin

P-38 fluquinconazole

P-39fluzylazole

P-42 fluxapiroxad

P-44 fosetyl-A1

P-50 izopirazam

P-53 Kresoxim-methyl

P-60 metconazole

P-62 metrafenone

P-66 Pyraclostrobin

P-69 phosphorous acid

P-70 potassium salt of phosphorous acid

P-71 sodium phosphate salt

P-72 penthiopyrad

P-74 prokhloraz

P-76 propiconazole

P-78 Prothioconazole

P-84 spiroxamine

P-85 sulfur

P-86 tebuconazole

P-92trifloksistrobin

P-93 triticonazole

Particularly preferred compositions are three-component compositions in which component I is as defined above, i.e. Compound I, in particular a compound selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described in detail above, and components II and III are selected from

N-azoxystrobin

P-5 benzovindiflupir

P-6 Bixafen

P-7 Boskalid

P-8 carbendazim

II-11 chlorothalonil

P-16 cyprodinil

P-21 difenokonazol

P-26 epoxyconazole

P-32 fenpropimorph

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P-ZZ fluazinam

P-37 fluoxastrobin

P-39 fluzilazole

P-42 fluxapiroxad

P-44 fosetyl-A1

P-50 Isopyrazam

P-53 Kresoxim-methyl

P-60 metconazole

P-62 metrafenone

P-66 Pyraclostrobin

P-69 phosphorous acid

P-70 potassium salt of phosphorous acid

P-71 sodium phosphate salt

P-72 penthiopyrad

P-74 prokhloraz

P-76 propiconazole

P-78 Prothioconazole

P-84 spiroxamine

P-85 sulfur

P-86 tebuconazole

P-92 trifloksistrobin and components II and III differ from each other. Particularly preferred compositions of these compositions are given in table. T1, where each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized three component composition. According to one particular aspect, these are triple compositions, each of which contains only these three components as an active compound. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. T1: three-component compositions containing component I, component II, component III, with component II and III being selected from the preferred fungicides described above, with components II and III differing from each other.

Table t1

composition I II III T1-1 1-1 Fz P-5 T1-2 1-1 Fz P-6 T1-3 1-1 Fz P-7 T1-4 1-1 Fz P-8 T1-5 1-1 Fz II T1-6 1-1 Fz II-16 T1-7 1-1 Fz P-21 T1-8 1-1 Fz P-26 T1-9 1-1 Fz P-32 T1-10 1-1 Fz P-33 T1-11 1-1 Fz P-37 T1-12 1-1 Fz P-39 T1-13 1-1 Fz P-42 T1-14 1-1 Fz P-44 T1-15 1-1 Fz P-50 T1-16 1-1 Fz P-53 T1-17 1-1 Fz P-60 T1-18 1-1 Fz P-62

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Tl-19 1-1 II-3 11-66 Tl-20 1-1 II-3 11-69 Tl-21 1-1 II-3 11-70 Tl-22 1-1 II-3 11-71 Tl-23 1-1 II-3 11-72 Tl-24 1-1 II-3 11-74 Tl-25 1-1 II-3 11-76 Tl-26 1-1 II-3 11-78 Tl-27 1-1 II-3 11-84 Tl-28 1-1 II-3 11-85 Tl-29 1-1 II-3 11-86 Tl-30 1-1 II-3 11-92 Tl-31 1-1 II-5 II-6 Tl-32 1-1 II-5 II-7 Tl-33 1-1 II-5 II-8 Tl-34 1-1 II-5 II-11 Tl-35 1-1 II-5 11-16 Tl-36 1-1 II-5 11-21 Tl-37 1-1 II-5 11-26 Tl-38 1-1 II-5 11-32 Tl-39 1-1 II-5 11-33 Tl-40 1-1 II-5 11-37 Tl-41 1-1 II-5 11-39 Tl-42 1-1 II-5 11-42 Tl-43 1-1 II-5 11-44 Tl-44 1-1 II-5 11-50 Tl-45 1-1 II-5 11-53 Tl-46 1-1 II-5 11-60 Tl-47 1-1 II-5 11-62 Tl-48 1-1 II-5 11-66 Tl-49 1-1 II-5 11-69 Tl-50 1-1 II-5 11-70 Tl-51 1-1 II-5 11-71 Tl-52 1-1 II-5 11-72 Tl-53 1-1 II-5 11-74 Tl-54 1-1 II-5 11-76 Tl-55 1-1 II-5 11-78 Tl-56 1-1 II-5 11-84 Tl-57 1-1 II-5 11-85 Tl-58 1-1 II-5 11-86 Tl-59 1-1 II-5 11-92 Tl-60 1-1 II-6 II-7 Tl-61 1-1 II-6 II-8 Tl-62 1-1 II-6 II-11 Tl-63 1-1 II-6 11-16 Tl-64 1-1 II-6 11-21

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Tl-65 1-1 II-6 11-26 Tl-66 1-1 II-6 11-32 Tl-67 1-1 II-6 11-33 Tl-68 1-1 II-6 11-37 Tl-69 1-1 II-6 11-39 Tl-70 1-1 II-6 11-42 Tl-71 1-1 II-6 11-44 Tl-72 1-1 II-6 11-50 Tl-73 1-1 II-6 11-53 Tl-74 1-1 II-6 11-60 Tl-75 1-1 II-6 11-62 Tl-76 1-1 II-6 11-66 Tl-77 1-1 II-6 11-69 Tl-78 1-1 II-6 11-70 Tl-79 1-1 II-6 11-71 Tl-80 1-1 II-6 11-72 Tl-81 1-1 II-6 11-74 Tl-82 1-1 II-6 11-76 Tl-83 1-1 II-6 11-78 Tl-84 1-1 II-6 11-84 Tl-85 1-1 II-6 11-85 Tl-86 1-1 II-6 11-86 Tl-87 1-1 II-6 11-92 Tl-88 1-1 II-7 II-8 Tl-89 1-1 II-7 II-11 Tl-90 1-1 II-7 11-16 Tl-91 1-1 II-7 11-21 Tl-92 1-1 II-7 11-26 Tl-93 1-1 II-7 11-32 Tl-94 1-1 II-7 11-33 Tl-95 1-1 II-7 11-37 Tl-96 1-1 II-7 11-39 Tl-97 1-1 II-7 11-42 Tl-98 1-1 II-7 11-44 Tl-99 1-1 II-7 11-50 Tl-100 1-1 II-7 11-53 Tl-101 1-1 II-7 11-60 Tl-102 1-1 II-7 11-62 Tl-103 1-1 II-7 11-66 Tl-104 1-1 II-7 11-69 Tl-105 1-1 II-7 11-70 Tl-106 1-1 II-7 11-71 Tl-107 1-1 II-7 11-72 Tl-108 1-1 II-7 11-74 Tl-109 1-1 II-7 11-76 Tl-110 1-1 II-7 11-78

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Tl-111 1-1 II-7 11-84 Tl-112 1-1 II-7 11-85 Tl-113 1-1 II-7 11-86 Tl-114 1-1 II-7 11-92 Tl-115 1-1 II-8 II-11 Tl-116 1-1 II-8 11-16 Tl-117 1-1 II-8 11-21 Tl-118 1-1 II-8 11-26 Tl-119 1-1 II-8 11-32 Tl-120 1-1 II-8 11-33 Tl-121 1-1 II-8 11-37 Tl-122 1-1 II-8 11-39 Tl-123 1-1 II-8 11-42 Tl-124 1-1 II-8 11-44 Tl-125 1-1 II-8 11-50 Tl-126 1-1 II-8 11-53 Tl-127 1-1 II-8 11-60 Tl-128 1-1 II-8 11-62 Tl-129 1-1 II-8 11-66 Tl-130 1-1 II-8 11-69 Tl-131 1-1 II-8 11-70 Tl-132 1-1 II-8 11-71 Tl-133 1-1 II-8 11-72 Tl-134 1-1 II-8 11-74 Tl-135 1-1 II-8 11-76 Tl-136 1-1 II-8 11-78 Tl-137 1-1 II-8 11-84 Tl-138 1-1 II-8 11-85 Tl-139 1-1 II-8 11-86 Tl-140 1-1 II-8 11-92 Tl-141 1-1 II-11 11-16 Tl-142 1-1 II-11 11-21 Tl-143 1-1 II-11 11-26 Tl-144 1-1 II-11 11-32 Tl-145 1-1 II-11 11-33 Tl-146 1-1 II-11 11-37 Tl-147 1-1 II-11 11-39 Tl-148 1-1 II-11 11-42 Tl-149 1-1 II-11 11-44 Tl-150 1-1 II-11 11-50 Tl-151 1-1 II-11 11-53 Tl-152 1-1 II-11 11-60 Tl-153 1-1 II-11 11-62 Tl-154 1-1 II-11 11-66 Tl-155 1-1 II-11 11-69 Tl-156 1-1 II-11 11-70

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Tl-157 1-1 II-11 11-71 Tl-158 1-1 II-11 11-72 Tl-159 1-1 II-11 11-74 Tl-160 1-1 II-11 11-76 Tl-161 1-1 II-11 11-78 Tl-162 1-1 II-11 11-84 Tl-163 1-1 II-11 11-85 Tl-164 1-1 II-11 11-86 Tl-165 1-1 II-11 11-92 Tl-166 1-1 11-16 11-21 Tl-167 1-1 11-16 11-26 Tl-168 1-1 11-16 11-32 Tl-169 1-1 11-16 11-33 Tl-170 1-1 11-16 11-37 Tl-171 1-1 11-16 11-39 Tl-172 1-1 11-16 11-42 Tl-173 1-1 11-16 11-44 Tl-174 1-1 11-16 11-50 Tl-175 1-1 11-16 11-53 Tl-176 1-1 11-16 11-60 Tl-177 1-1 11-16 11-62 Tl-178 1-1 11-16 11-66 Tl-179 1-1 11-16 11-69 Tl-180 1-1 11-16 11-70 Tl-181 1-1 11-16 11-71 Tl-182 1-1 11-16 11-72 Tl-183 1-1 11-16 11-74 Tl-184 1-1 11-16 11-76 Tl-185 1-1 11-16 11-78 Tl-186 1-1 11-16 11-84 Tl-187 1-1 11-16 11-85 Tl-188 1-1 11-16 11-86 Tl-189 1-1 11-16 11-92 Tl-190 1-1 11-21 11-26 Tl-191 1-1 11-21 11-32 Tl-192 1-1 11-21 11-33 Tl-193 1-1 11-21 11-37 Tl-194 1-1 11-21 11-39 Tl-195 1-1 11-21 11-42 Tl-196 1-1 11-21 11-44 Tl-197 1-1 11-21 11-50 Tl-198 1-1 11-21 11-53 Tl-199 1-1 11-21 11-60 Tl-200 1-1 11-21 11-62 Tl-201 1-1 11-21 11-66 Tl-202 1-1 11-21 11-69

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Tl-203 1-1 11-21 11-70 Tl-204 1-1 11-21 11-71 Tl-205 1-1 11-21 11-72 Tl-206 1-1 11-21 11-74 Tl-207 1-1 11-21 11-76 Tl-208 1-1 11-21 11-78 Tl-209 1-1 11-21 11-84 Tl-210 1-1 11-21 11-85 Tl-211 1-1 11-21 11-86 Tl-212 1-1 11-21 11-92 Tl-213 1-1 11-26 11-32 Tl-214 1-1 11-26 11-33 Tl-215 1-1 11-26 11-37 Tl-216 1-1 11-26 11-39 Tl-217 1-1 11-26 11-42 Tl-218 1-1 11-26 11-44 Tl-219 1-1 11-26 11-50 Tl-220 1-1 11-26 11-53 Tl-221 1-1 11-26 11-60 Tl-222 1-1 11-26 11-62 Tl-223 1-1 11-26 11-66 Tl-224 1-1 11-26 11-69 Tl-225 1-1 11-26 11-70 Tl-226 1-1 11-26 11-71 Tl-227 1-1 11-26 11-72 Tl-228 1-1 11-26 11-74 Tl-229 1-1 11-26 11-76 Tl-230 1-1 11-26 11-78 Tl-231 1-1 11-26 11-84 Tl-232 1-1 11-26 11-85 Tl-233 1-1 11-26 11-86 Tl-234 1-1 11-26 11-92 Tl-235 1-1 11-32 11-33 Tl-236 1-1 11-32 11-37 Tl-237 1-1 11-32 11-39 Tl-238 1-1 11-32 11-42 Tl-239 1-1 11-32 11-44 Tl-240 1-1 11-32 11-50 Tl-241 1-1 11-32 11-53 Tl-242 1-1 11-32 11-60 Tl-243 1-1 11-32 11-62 Tl-244 1-1 11-32 11-66 Tl-245 1-1 11-32 11-69 Tl-246 1-1 11-32 11-70 Tl-247 1-1 11-32 11-71 Tl-248 1-1 11-32 11-72

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Tl-249 1-1 11-32 11-74 Tl-250 1-1 11-32 11-76 Tl-251 1-1 11-32 11-78 Tl-252 1-1 11-32 11-84 Tl-253 1-1 11-32 11-85 Tl-254 1-1 11-32 11-86 Tl-255 1-1 11-32 11-92 Tl-256 1-1 11-33 11-37 Tl-257 1-1 11-33 11-39 Tl-258 1-1 11-33 11-42 Tl-259 1-1 11-33 11-44 Tl-260 1-1 11-33 11-50 Tl-261 1-1 11-33 11-53 Tl-262 1-1 11-33 11-60 Tl-263 1-1 11-33 11-62 Tl-264 1-1 11-33 11-66 Tl-265 1-1 11-33 11-69 Tl-266 1-1 11-33 11-70 Tl-267 1-1 11-33 11-71 Tl-268 1-1 11-33 11-72 Tl-269 1-1 11-33 11-74 Tl-270 1-1 11-33 11-76 Tl-271 1-1 11-33 11-78 Tl-272 1-1 11-33 11-84 Tl-273 1-1 11-33 11-85 Tl-274 1-1 11-33 11-86 Tl-275 1-1 11-33 11-92 Tl-276 1-1 11-37 11-39 Tl-277 1-1 11-37 11-42 Tl-278 1-1 11-37 11-44 Tl-279 1-1 11-37 11-50 Tl-280 1-1 11-37 11-53 Tl-281 1-1 11-37 11-60 Tl-282 1-1 11-37 11-62 Tl-283 1-1 11-37 11-66 Tl-284 1-1 11-37 11-69 Tl-285 1-1 11-37 11-70 Tl-286 1-1 11-37 11-71 Tl-287 1-1 11-37 11-72 Tl-288 1-1 11-37 11-74 Tl-289 1-1 11-37 11-76 Tl-290 1-1 11-37 11-78 Tl-291 1-1 11-37 11-84 Tl-292 1-1 11-37 11-85 Tl-293 1-1 11-37 11-86 Tl-294 1-1 11-37 11-92

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Tl-295 1-1 11-39 11-42 Tl-296 1-1 11-39 11-44 Tl-297 1-1 11-39 11-50 Tl-298 1-1 11-39 11-53 Tl-299 1-1 11-39 11-60 Tl-300 1-1 11-39 11-62 Tl-301 1-1 11-39 11-66 Tl-302 1-1 11-39 11-69 Tl-303 1-1 11-39 11-70 Tl-304 1-1 11-39 11-71 Tl-305 1-1 11-39 11-72 Tl-306 1-1 11-39 11-74 Tl-307 1-1 11-39 11-76 Tl-308 1-1 11-39 11-78 Tl-309 1-1 11-39 11-84 Tl-310 1-1 11-39 11-85 Tl-311 1-1 11-39 11-86 Tl-312 1-1 11-39 11-92 Tl-313 1-1 11-42 11-44 Tl-314 1-1 11-42 11-50 Tl-315 1-1 11-42 11-53 Tl-316 1-1 11-42 11-60 Tl-317 1-1 11-42 11-62 Tl-318 1-1 11-42 11-66 Tl-319 1-1 11-42 11-69 Tl-320 1-1 11-42 11-70 Tl-321 1-1 11-42 11-71 Tl-322 1-1 11-42 11-72 Tl-323 1-1 11-42 11-74 Tl-324 1-1 11-42 11-76 Tl-325 1-1 11-42 11-78 Tl-326 1-1 11-42 11-84 Tl-327 1-1 11-42 11-85 Tl-328 1-1 11-42 11-86 Tl-329 1-1 11-42 11-92 Tl-330 1-1 11-44 11-50 Tl-331 1-1 11-44 11-53 Tl-332 1-1 11-44 11-60 Tl-333 1-1 11-44 11-62 Tl-334 1-1 11-44 11-66 Tl-335 1-1 11-44 11-69 Tl-336 1-1 11-44 11-70 Tl-337 1-1 11-44 11-71 Tl-338 1-1 11-44 11-72 Tl-339 1-1 11-44 11-74 Tl-340 1-1 11-44 11-76

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Tl-341 1-1 11-44 11-78 Tl-342 1-1 11-44 11-84 Tl-343 1-1 11-44 11-85 Tl-344 1-1 11-44 11-86 Tl-345 1-1 11-44 11-92 Tl-346 1-1 11-50 11-53 Tl-347 1-1 11-50 11-60 Tl-348 1-1 11-50 11-62 Tl-349 1-1 11-50 11-66 Tl-350 1-1 11-50 11-69 Tl-351 1-1 11-50 11-70 Tl-352 1-1 11-50 11-71 Tl-353 1-1 11-50 11-72 Tl-354 1-1 11-50 11-74 Tl-355 1-1 11-50 11-76 Tl-356 1-1 11-50 11-78 Tl-357 1-1 11-50 11-84 Tl-358 1-1 11-50 11-85 Tl-359 1-1 11-50 11-86 Tl-360 1-1 11-50 11-92 Tl-361 1-1 11-53 11-60 Tl-362 1-1 11-53 11-62 Tl-363 1-1 11-53 11-66 Tl-364 1-1 11-53 11-69 Tl-365 1-1 11-53 11-70 Tl-366 1-1 11-53 11-71 Tl-367 1-1 11-53 11-72 Tl-368 1-1 11-53 11-74 Tl-369 1-1 11-53 11-76 Tl-370 1-1 11-53 11-78 Tl-371 1-1 11-53 11-84 Tl-372 1-1 11-53 11-85 Tl-373 1-1 11-53 11-86 Tl-374 1-1 11-53 11-92 Tl-375 1-1 11-60 11-62 Tl-376 1-1 11-60 11-66 Tl-377 1-1 11-60 11-69 Tl-378 1-1 11-60 11-70 Tl-379 1-1 11-60 11-71 Tl-380 1-1 11-60 11-72 Tl-381 1-1 11-60 11-74 Tl-382 1-1 11-60 11-76 Tl-383 1-1 11-60 11-78 Tl-384 1-1 11-60 11-84 Tl-385 1-1 11-60 11-85 Tl-386 1-1 11-60 11-86

- 75 030875

Tl-387 1-1 11-60 11-92 Tl-388 1-1 11-62 11-66 Tl-389 1-1 11-62 11-69 Tl-390 1-1 11-62 11-70 Tl-391 1-1 11-62 11-71 Tl-392 1-1 11-62 11-72 Tl-393 1-1 11-62 11-74 Tl-394 1-1 11-62 11-76 Tl-395 1-1 11-62 11-78 Tl-396 1-1 11-62 11-84 Tl-397 1-1 11-62 11-85 Tl-398 1-1 11-62 11-86 Tl-399 1-1 11-62 11-92 Tl-400 1-1 11-66 11-69 Tl-401 1-1 11-66 11-70 Tl-402 1-1 11-66 11-71 Tl-403 1-1 11-66 11-72 Tl-404 1-1 11-66 11-74 Tl-405 1-1 11-66 11-76 Tl-406 1-1 11-66 11-78 Tl-407 1-1 11-66 11-84 Tl-408 1-1 11-66 11-85 Tl-409 1-1 11-66 11-86 Tl-410 1-1 11-66 11-92 Tl-411 1-1 11-69 11-70 Tl-412 1-1 11-69 11-71 Tl-413 1-1 11-69 11-72 Tl-414 1-1 11-69 11-74 Tl-415 1-1 11-69 11-76 Tl-416 1-1 11-69 11-78 Tl-417 1-1 11-69 11-84 Tl-418 1-1 11-69 11-85 Tl-419 1-1 11-69 11-86 Tl-420 1-1 11-69 11-92 Tl-421 1-1 11-70 11-71 Tl-422 1-1 11-70 11-72 Tl-423 1-1 11-70 11-74 Tl-424 1-1 11-70 11-76 Tl-425 1-1 11-70 11-78 Tl-426 1-1 11-70 11-84 Tl-427 1-1 11-70 11-85 Tl-428 1-1 11-70 11-86 Tl-429 1-1 11-70 11-92 Tl-430 1-1 11-71 11-72 Tl-431 1-1 11-71 11-74 Tl-432 1-1 11-71 11-76

- 76 030875

Tl-433 1-1 11-71 11-78 Tl-434 1-1 11-71 11-84 Tl-435 1-1 11-71 11-85 Tl-436 1-1 11-71 11-86 Tl-437 1-1 11-71 11-92 Tl-438 1-1 11-72 11-74 Tl-439 1-1 11-74 11-76 Tl-440 1-1 11-74 11-78 Tl-441 1-1 11-74 11-84 Tl-442 1-1 11-74 11-85 Tl-443 1-1 11-74 11-86 Tl-444 1-1 11-74 11-92 Tl-445 1-1 11-76 11-78 Tl-446 1-1 11-76 11-84 Tl-447 1-1 11-76 11-85 Tl-448 1-1 11-76 11-86 Tl-449 1-1 11-76 11-92 Tl-450 1-1 11-78 11-84 Tl-451 1-1 11-78 11-85 Tl-452 1-1 11-78 11-86 Tl-453 1-1 11-78 11-92 Tl-454 1-1 11-84 11-85 Tl-455 1-1 11-84 11-86 Tl-456 1-1 11-84 11-92 Tl-457 1-1 11-85 11-86 Tl-458 1-1 11-85 11-92 Tl-459 1-1 11-86 11-92 Tl-460 1-5 II-3 II-5 Tl-461 1-5 II-3 II-6 Tl-462 1-5 II-3 II-7 Tl-463 1-5 II-3 II-8 Tl-464 1-5 II-3 II-11 Tl-465 1-5 II-3 11-16 Tl-466 1-5 II-3 11-21 Tl-467 1-5 II-3 11-26 Tl-468 1-5 II-3 11-32 Tl-469 1-5 II-3 11-33 Tl-470 1-5 II-3 11-37 Tl-471 1-5 II-3 11-39 Tl-472 1-5 II-3 11-42 Tl-473 1-5 II-3 11-44 Tl-474 1-5 II-3 11-50 Tl-475 1-5 II-3 11-53 Tl-476 1-5 II-3 11-60 Tl-477 1-5 II-3 11-62 Tl-478 1-5 II-3 11-66

- 77 030875

Tl-479 1-5 II-3 11-69 Tl-480 1-5 II-3 11-70 Tl-481 1-5 II-3 11-71 Tl-482 1-5 II-3 11-72 Tl-483 1-5 II-3 11-74 Tl-484 1-5 II-3 11-76 Tl-485 1-5 II-3 11-78 Tl-486 1-5 II-3 11-84 Tl-487 1-5 II-3 11-85 Tl-488 1-5 II-3 11-86 Tl-489 1-5 II-3 11-92 Tl-490 1-5 II-5 II-6 Tl-491 1-5 II-5 II-7 Tl-492 1-5 II-5 II-8 Tl-493 1-5 II-5 II-11 Tl-494 1-5 II-5 11-16 Tl-495 1-5 II-5 11-21 Tl-496 1-5 II-5 11-26 Tl-497 1-5 II-5 11-32 Tl-498 1-5 II-5 11-33 Tl-499 1-5 II-5 11-37 Tl-500 1-5 II-5 11-39 Tl-501 1-5 II-5 11-42 Tl-502 1-5 II-5 11-44 Tl-503 1-5 II-5 11-50 Tl-504 1-5 II-5 11-53 Tl-505 1-5 II-5 11-60 Tl-506 1-5 II-5 11-62 Tl-507 1-5 II-5 11-66 Tl-508 1-5 II-5 11-69 Tl-509 1-5 II-5 11-70 Tl-510 1-5 II-5 11-71 Tl-511 1-5 II-5 11-72 Tl-512 1-5 II-5 11-74 Tl-513 1-5 II-5 11-76 Tl-514 1-5 II-5 11-78 Tl-515 1-5 II-5 11-84 Tl-516 1-5 II-5 11-85 Tl-517 1-5 II-5 11-86 Tl-518 1-5 II-5 11-92 Tl-519 1-5 II-6 II-7 Tl-520 1-5 II-6 II-8 Tl-521 1-5 II-6 II-11 Tl-522 1-5 II-6 11-16 Tl-523 1-5 II-6 11-21 Tl-524 1-5 II-6 11-26

- 78 030875

Tl-525 1-5 II-6 11-32 Tl-526 1-5 II-6 11-33 Tl-527 1-5 II-6 11-37 Tl-528 1-5 II-6 11-39 Tl-529 1-5 II-6 11-42 Tl-530 1-5 II-6 11-44 Tl-531 1-5 II-6 11-50 Tl-532 1-5 II-6 11-53 Tl-533 1-5 II-6 11-60 Tl-534 1-5 II-6 11-62 Tl-535 1-5 II-6 11-66 Tl-536 1-5 II-6 11-69 Tl-537 1-5 II-6 11-70 Tl-538 1-5 II-6 11-71 Tl-539 1-5 II-6 11-72 Tl-540 1-5 II-6 11-74 Tl-541 1-5 II-6 11-76 Tl-542 1-5 II-6 11-78 Tl-543 1-5 II-6 11-84 Tl-544 1-5 II-6 11-85 Tl-545 1-5 II-6 11-86 Tl-546 1-5 II-6 11-92 Tl-547 1-5 II-7 II-8 Tl-548 1-5 II-7 II-11 Tl-549 1-5 II-7 11-16 Tl-550 1-5 II-7 11-21 Tl-551 1-5 II-7 11-26 Tl-552 1-5 II-7 11-32 Tl-553 1-5 II-7 11-33 Tl-554 1-5 II-7 11-37 Tl-555 1-5 II-7 11-39 Tl-556 1-5 II-7 11-42 Tl-557 1-5 II-7 11-44 Tl-558 1-5 II-7 11-50 Tl-559 1-5 II-7 11-53 Tl-560 1-5 II-7 11-60 Tl-561 1-5 II-7 11-62 Tl-562 1-5 II-7 11-66 Tl-563 1-5 II-7 11-69 Tl-564 1-5 II-7 11-70 Tl-565 1-5 II-7 11-71 Tl-566 1-5 II-7 11-72 Tl-567 1-5 II-7 11-74 Tl-568 1-5 II-7 11-76 Tl-569 1-5 II-7 11-78 Tl-570 1-5 II-7 11-84

- 79 030875

Tl-571 1-5 II-7 11-85 Tl-572 1-5 II-7 11-86 Tl-573 1-5 II-7 11-92 Tl-574 1-5 II-8 II-11 Tl-575 1-5 II-8 11-16 Tl-576 1-5 II-8 11-21 Tl-577 1-5 II-8 11-26 Tl-578 1-5 II-8 11-32 Tl-579 1-5 II-8 11-33 Tl-580 1-5 II-8 11-37 Tl-581 1-5 II-8 11-39 Tl-582 1-5 II-8 11-42 Tl-583 1-5 II-8 11-44 Tl-584 1-5 II-8 11-50 Tl-585 1-5 II-8 11-53 Tl-586 1-5 II-8 11-60 Tl-587 1-5 II-8 11-62 Tl-588 1-5 II-8 11-66 Tl-589 1-5 II-8 11-69 Tl-590 1-5 II-8 11-70 Tl-591 1-5 II-8 11-71 Tl-592 1-5 II-8 11-72 Tl-593 1-5 II-8 11-74 Tl-594 1-5 II-8 11-76 Tl-595 1-5 II-8 11-78 Tl-596 1-5 II-8 11-84 Tl-597 1-5 II-8 11-85 Tl-598 1-5 II-8 11-86 Tl-599 1-5 II-8 11-92 Tl-600 1-5 II-11 11-16 Tl-601 1-5 II-11 11-21 Tl-602 1-5 II-11 11-26 Tl-603 1-5 II-11 11-32 Tl-604 1-5 II-11 11-33 Tl-605 1-5 II-11 11-37 Tl-606 1-5 II-11 11-39 Tl-607 1-5 II-11 11-42 Tl-608 1-5 II-11 11-44 Tl-609 1-5 II-11 11-50 Tl-610 1-5 II-11 11-53 Tl-611 1-5 II-11 11-60 Tl-612 1-5 II-11 11-62 Tl-613 1-5 II-11 11-66 Tl-614 1-5 II-11 11-69 Tl-615 1-5 II-11 11-70 Tl-616 1-5 II-11 11-71

- 80 030875

Tl-617 1-5 II-11 11-72 Tl-618 1-5 II-11 11-74 Tl-619 1-5 II-11 11-76 Tl-620 1-5 II-11 11-78 Tl-621 1-5 II-11 11-84 Tl-622 1-5 II-11 11-85 Tl-623 1-5 II-11 11-86 Tl-624 1-5 II-11 11-92 Tl-625 1-5 11-16 11-21 Tl-626 1-5 11-16 11-26 Tl-627 1-5 11-16 11-32 Tl-628 1-5 11-16 11-33 Tl-629 1-5 11-16 11-37 Tl-630 1-5 11-16 11-39 Tl-631 1-5 11-16 11-42 Tl-632 1-5 11-16 11-44 Tl-633 1-5 11-16 11-50 Tl-634 1-5 11-16 11-53 Tl-635 1-5 11-16 11-60 Tl-636 1-5 11-16 11-62 Tl-637 1-5 11-16 11-66 Tl-638 1-5 11-16 11-69 Tl-639 1-5 11-16 11-70 Tl-640 1-5 11-16 11-71 Tl-641 1-5 11-16 11-72 Tl-642 1-5 11-16 11-74 Tl-643 1-5 11-16 11-76 Tl-644 1-5 11-16 11-78 Tl-645 1-5 11-16 11-84 Tl-646 1-5 11-16 11-85 Tl-647 1-5 11-16 11-86 Tl-648 1-5 11-16 11-92 Tl-649 1-5 11-21 11-26 Tl-650 1-5 11-21 11-32 Tl-651 1-5 11-21 11-33 Tl-652 1-5 11-21 11-37 Tl-653 1-5 11-21 11-39 Tl-654 1-5 11-21 11-42 Tl-655 1-5 11-21 11-44 Tl-656 1-5 11-21 11-50 Tl-657 1-5 11-21 11-53 Tl-658 1-5 11-21 11-60 Tl-659 1-5 11-21 11-62 Tl-660 1-5 11-21 11-66 Tl-661 1-5 11-21 11-69 Tl-662 1-5 11-21 11-70

- 81 030875

Tl-663 1-5 11-21 11-71 Tl-664 1-5 11-21 11-72 Tl-665 1-5 11-21 11-74 Tl-666 1-5 11-21 11-76 Tl-667 1-5 11-21 11-78 Tl-668 1-5 11-21 11-84 Tl-669 1-5 11-21 11-85 Tl-670 1-5 11-21 11-86 Tl-671 1-5 11-21 11-92 Tl-672 1-5 11-26 11-32 Tl-673 1-5 11-26 11-33 Tl-674 1-5 11-26 11-37 Tl-675 1-5 11-26 11-39 Tl-676 1-5 11-26 11-42 Tl-677 1-5 11-26 11-44 Tl-678 1-5 11-26 11-50 Tl-679 1-5 11-26 11-53 Tl-680 1-5 11-26 11-60 Tl-681 1-5 11-26 11-62 Tl-682 1-5 11-26 11-66 Tl-683 1-5 11-26 11-69 Tl-684 1-5 11-26 11-70 Tl-685 1-5 11-26 11-71 Tl-686 1-5 11-26 11-72 Tl-687 1-5 11-26 11-74 Tl-688 1-5 11-26 11-76 Tl-689 1-5 11-26 11-78 Tl-690 1-5 11-26 11-84 Tl-691 1-5 11-26 11-85 Tl-692 1-5 11-26 11-86 Tl-693 1-5 11-26 11-92 Tl-694 1-5 11-32 11-33 Tl-695 1-5 11-32 11-37 Tl-696 1-5 11-32 11-39 Tl-697 1-5 11-32 11-42 Tl-698 1-5 11-32 11-44 Tl-699 1-5 11-32 11-50 Tl-700 1-5 11-32 11-53 Tl-701 1-5 11-32 11-60 Tl-702 1-5 11-32 11-62 Tl-703 1-5 11-32 11-66 Tl-704 1-5 11-32 11-69 Tl-705 1-5 11-32 11-70 Tl-706 1-5 11-32 11-71 Tl-707 1-5 11-32 11-72 Tl-708 1-5 11-32 11-74

- 82 030875

Tl-709 1-5 11-32 11-76 Tl-710 1-5 11-32 11-78 Tl-711 1-5 11-32 11-84 Tl-712 1-5 11-32 11-85 Tl-713 1-5 11-32 11-86 Tl-714 1-5 11-32 11-92 Tl-715 1-5 11-33 11-37 Tl-716 1-5 11-33 11-39 Tl-717 1-5 11-33 11-42 Tl-718 1-5 11-33 11-44 Tl-719 1-5 11-33 11-50 Tl-720 1-5 11-33 11-53 Tl-721 1-5 11-33 11-60 Tl-722 1-5 11-33 11-62 Tl-723 1-5 11-33 11-66 Tl-724 1-5 11-33 11-69 Tl-725 1-5 11-33 11-70 Tl-726 1-5 11-33 11-71 Tl-727 1-5 11-33 11-72 Tl-728 1-5 11-33 11-74 Tl-729 1-5 11-33 11-76 Tl-730 1-5 11-33 11-78 Tl-731 1-5 11-33 11-84 Tl-732 1-5 11-33 11-85 Tl-733 1-5 11-33 11-86 Tl-734 1-5 11-33 11-92 Tl-735 1-5 11-37 11-39 Tl-736 1-5 11-37 11-42 Tl-737 1-5 11-37 11-44 Tl-738 1-5 11-37 11-50 Tl-739 1-5 11-37 11-53 Tl-740 1-5 11-37 11-60 Tl-741 1-5 11-37 11-62 Tl-742 1-5 11-37 11-66 Tl-743 1-5 11-37 11-69 Tl-744 1-5 11-37 11-70 Tl-745 1-5 11-37 11-71 Tl-746 1-5 11-37 11-72 Tl-747 1-5 11-37 11-74 Tl-748 1-5 11-37 11-76 Tl-749 1-5 11-37 11-78 Tl-750 1-5 11-37 11-84 Tl-751 1-5 11-37 11-85 Tl-752 1-5 11-37 11-86 Tl-753 1-5 11-37 11-92 Tl-754 1-5 11-39 11-42

- 83 030875

Tl-755 1-5 11-39 11-44 Tl-756 1-5 11-39 11-50 Tl-757 1-5 11-39 11-53 Tl-758 1-5 11-39 11-60 Tl-759 1-5 11-39 11-62 Tl-760 1-5 11-39 11-66 Tl-761 1-5 11-39 11-69 Tl-762 1-5 11-39 11-70 Tl-763 1-5 11-39 11-71 Tl-764 1-5 11-39 11-72 Tl-765 1-5 11-39 11-74 Tl-766 1-5 11-39 11-76 Tl-767 1-5 11-39 11-78 Tl-768 1-5 11-39 11-84 Tl-769 1-5 11-39 11-85 Tl-770 1-5 11-39 11-86 Tl-771 1-5 11-39 11-92 Tl-772 1-5 11-42 11-44 Tl-773 1-5 11-42 11-50 Tl-774 1-5 11-42 11-53 Tl-775 1-5 11-42 11-60 Tl-776 1-5 11-42 11-62 Tl-777 1-5 11-42 11-66 Tl-778 1-5 11-42 11-69 Tl-779 1-5 11-42 11-70 Tl-780 1-5 11-42 11-71 Tl-781 1-5 11-42 11-72 Tl-782 1-5 11-42 11-74 Tl-783 1-5 11-42 11-76 Tl-784 1-5 11-42 11-78 Tl-785 1-5 11-42 11-84 Tl-786 1-5 11-42 11-85 Tl-787 1-5 11-42 11-86 Tl-788 1-5 11-42 11-92 Tl-789 1-5 11-44 11-50 Tl-790 1-5 11-44 11-53 Tl-791 1-5 11-44 11-60 Tl-792 1-5 11-44 11-62 Tl-793 1-5 11-44 11-66 Tl-794 1-5 11-44 11-69 Tl-795 1-5 11-44 11-70 Tl-796 1-5 11-44 11-71 Tl-797 1-5 11-44 11-72 Tl-798 1-5 11-44 11-74 Tl-799 1-5 11-44 11-76 Tl-800 1-5 11-44 11-78

- 84 030875

Tl-801 1-5 11-44 11-84 Tl-802 1-5 11-44 11-85 Tl-803 1-5 11-44 11-86 Tl-804 1-5 11-44 11-92 Tl-805 1-5 11-50 11-53 Tl-806 1-5 11-50 11-60 Tl-807 1-5 11-50 11-62 Tl-808 1-5 11-50 11-66 Tl-809 1-5 11-50 11-69 Tl-810 1-5 11-50 11-70 Tl-811 1-5 11-50 11-71 Tl-812 1-5 11-50 11-72 Tl-813 1-5 11-50 11-74 Tl-814 1-5 11-50 11-76 Tl-815 1-5 11-50 11-78 Tl-816 1-5 11-50 11-84 Tl-817 1-5 11-50 11-85 Tl-818 1-5 11-50 11-86 Tl-819 1-5 11-50 11-92 Tl-820 1-5 11-53 11-60 Tl-821 1-5 11-53 11-62 Tl-822 1-5 11-53 11-66 Tl-823 1-5 11-53 11-69 Tl-824 1-5 11-53 11-70 Tl-825 1-5 11-53 11-71 Tl-826 1-5 11-53 11-72 Tl-827 1-5 11-53 11-74 Tl-828 1-5 11-53 11-76 Tl-829 1-5 11-53 11-78 Tl-830 1-5 11-53 11-84 Tl-831 1-5 11-53 11-85 Tl-832 1-5 11-53 11-86 Tl-833 1-5 11-53 11-92 Tl-834 1-5 11-60 11-62 Tl-835 1-5 11-60 11-66 Tl-836 1-5 11-60 11-69 Tl-837 1-5 11-60 11-70 Tl-838 1-5 11-60 11-71 Tl-839 1-5 11-60 11-72 Tl-840 1-5 11-60 11-74 Tl-841 1-5 11-60 11-76 Tl-842 1-5 11-60 11-78 Tl-843 1-5 11-60 11-84 Tl-844 1-5 11-60 11-85 Tl-845 1-5 11-60 11-86 Tl-846 1-5 11-60 11-92

- 85 030875

Tl-847 1-5 11-62 11-66 Tl-848 1-5 11-62 11-69 Tl-849 1-5 11-62 11-70 Tl-850 1-5 11-62 11-71 Tl-851 1-5 11-62 11-72 Tl-852 1-5 11-62 11-74 Tl-853 1-5 11-62 11-76 Tl-854 1-5 11-62 11-78 Tl-855 1-5 11-62 11-84 Tl-856 1-5 11-62 11-85 Tl-857 1-5 11-62 11-86 Tl-858 1-5 11-62 11-92 Tl-859 1-5 11-66 11-69 Tl-860 1-5 11-66 11-70 Tl-861 1-5 11-66 11-71 Tl-862 1-5 11-66 11-72 Tl-863 1-5 11-66 11-74 Tl-864 1-5 11-66 11-76 Tl-865 1-5 11-66 11-78 Tl-866 1-5 11-66 11-84 Tl-867 1-5 11-66 11-85 Tl-868 1-5 11-66 11-86 Tl-869 1-5 11-66 11-92 Tl-870 1-5 11-69 11-70 Tl-871 1-5 11-69 11-71 Tl-872 1-5 11-69 11-72 Tl-873 1-5 11-69 11-74 Tl-874 1-5 11-69 11-76 Tl-875 1-5 11-69 11-78 Tl-876 1-5 11-69 11-84 Tl-877 1-5 11-69 11-85 Tl-878 1-5 11-69 11-86 Tl-879 1-5 11-69 11-92 Tl-880 1-5 11-70 11-71 Tl-881 1-5 11-70 11-72 Tl-882 1-5 11-70 11-74 Tl-883 1-5 11-70 11-76 Tl-884 1-5 11-70 11-78 Tl-885 1-5 11-70 11-84 Tl-886 1-5 11-70 11-85 Tl-887 1-5 11-70 11-86 Tl-888 1-5 11-70 11-92 Tl-889 1-5 11-71 11-72 Tl-890 1-5 11-71 11-74 Tl-891 1-5 11-71 11-76 Tl-892 1-5 11-71 11-78

- 86 030875

Tl-893 1-5 11-71 11-84 Tl-894 1-5 11-71 11-85 Tl-895 1-5 11-71 11-86 Tl-896 1-5 11-71 11-92 Tl-897 1-5 11-72 11-74 Tl-898 1-5 11-74 11-76 Tl-899 1-5 11-74 11-78 Tl-900 1-5 11-74 11-84 Tl-901 1-5 11-74 11-85 Tl-902 1-5 11-74 11-86 Tl-903 1-5 11-74 11-92 Tl-904 1-5 11-76 11-78 Tl-905 1-5 11-76 11-84 Tl-906 1-5 11-76 11-85 Tl-907 1-5 11-76 11-86 Tl-908 1-5 11-76 11-92 Tl-909 1-5 11-78 11-84 Tl-910 1-5 11-78 11-85 Tl-911 1-5 11-78 11-86 Tl-912 1-5 11-78 11-92 Tl-913 1-5 11-84 11-85 Tl-914 1-5 11-84 11-86 Tl-915 1-5 11-84 11-92 Tl-916 1-5 11-85 11-86 Tl-917 1-5 11-85 11-92 Tl-918 1-5 11-86 11-92 Tl-919 1-3 II-3 II-5 Tl-920 1-3 II-3 II-6 Tl-921 1-3 II-3 II-7 Tl-922 1-3 II-3 II-8 Tl-923 1-3 II-3 II-11 Tl-924 1-3 II-3 11-16 Tl-925 1-3 II-3 11-21 Tl-926 1-3 II-3 11-26 Tl-927 1-3 II-3 11-32 Tl-928 1-3 II-3 11-33 Tl-929 1-3 II-3 11-37 Tl-930 1-3 II-3 11-39 Tl-931 1-3 II-3 11-42 Tl-932 1-3 II-3 11-44 Tl-933 1-3 II-3 11-50 Tl-934 1-3 II-3 11-53 Tl-935 1-3 II-3 11-60 Tl-936 1-3 II-3 11-62 Tl-937 1-3 II-3 11-66 Tl-938 1-3 II-3 11-69

- 87 030875

Tl-939 1-3 II-3 11-70 Tl-940 1-3 II-3 11-71 Tl-941 1-3 II-3 11-72 Tl-942 1-3 II-3 11-74 Tl-943 1-3 II-3 11-76 Tl-944 1-3 II-3 11-78 Tl-945 1-3 II-3 11-84 Tl-946 1-3 II-3 11-85 Tl-947 1-3 II-3 11-86 Tl-948 1-3 II-3 11-92 Tl-949 1-3 II-5 II-6 Tl-950 1-3 II-5 II-7 Tl-951 1-3 II-5 II-8 Tl-952 1-3 II-5 II-11 Tl-953 1-3 II-5 11-16 Tl-954 1-3 II-5 11-21 Tl-955 1-3 II-5 11-26 Tl-956 1-3 II-5 11-32 Tl-957 1-3 II-5 11-33 Tl-958 1-3 II-5 11-37 Tl-959 1-3 II-5 11-39 Tl-960 1-3 II-5 11-42 Tl-961 1-3 II-5 11-44 Tl-962 1-3 II-5 11-50 Tl-963 1-3 II-5 11-53 Tl-964 1-3 II-5 11-60 Tl-965 1-3 II-5 11-62 Tl-966 1-3 II-5 11-66 Tl-967 1-3 II-5 11-69 Tl-968 1-3 II-5 11-70 Tl-969 1-3 II-5 11-71 Tl-970 1-3 II-5 11-72 Tl-971 1-3 II-5 11-74 Tl-972 1-3 II-5 11-76 Tl-973 1-3 II-5 11-78 Tl-974 1-3 II-5 11-84 Tl-975 1-3 II-5 11-85 Tl-976 1-3 II-5 11-86 Tl-977 1-3 II-5 11-92 Tl-978 1-3 II-6 II-7 Tl-979 1-3 II-6 II-8 Tl-980 1-3 II-6 II-11 Tl-981 1-3 II-6 11-16 Tl-982 1-3 II-6 11-21 Tl-983 1-3 II-6 11-26 Tl-984 1-3 II-6 11-32

- 88 030875

Tl-985 1-3 II-6 11-33 Tl-986 1-3 II-6 11-37 Tl-987 1-3 II-6 11-39 Tl-988 1-3 II-6 11-42 Tl-989 1-3 II-6 11-44 Tl-990 1-3 II-6 II-5O Tl-991 1-3 II-6 11-53 Tl-992 1-3 II-6 11-60 Tl-993 1-3 II-6 11-62 Tl-994 1-3 II-6 11-66 Tl-995 1-3 II-6 11-69 Tl-996 1-3 II-6 11-70 Tl-997 1-3 II-6 11-71 Tl-998 1-3 II-6 11-72 Tl-999 1-3 II-6 11-74 Tl-1000 1-3 II-6 11-76 Tl-1001 1-3 II-6 11-78 Tl-1002 1-3 II-6 11-84 T1-1OO3 1-3 II-6 11-85 Tl-1004 1-3 II-6 11-86 T1-1OO5 1-3 II-6 11-92 Tl-1006 1-3 II-7 II-8 Tl-1007 1-3 II-7 II-11 T1-1OO8 1-3 II-7 11-16 Tl-1009 1-3 II-7 11-21 T1-1O1O 1-3 II-7 11-26 T1-1O11 1-3 II-7 11-32 Tl-1012 1-3 II-7 11-33 T1-1O13 1-3 II-7 11-37 Tl-1014 1-3 II-7 11-39 T1-1O15 1-3 II-7 11-42 Tl-1016 1-3 II-7 11-44 Tl-1017 1-3 II-7 11-50 T1-1O18 1-3 II-7 11-53 Tl-1019 1-3 II-7 11-60 Tl-1020 1-3 II-7 11-62 Tl-1021 1-3 II-7 11-66 Tl-1022 1-3 II-7 11-69 Tl-1023 1-3 II-7 11-70 Tl-1024 1-3 II-7 11-71 Tl-1025 1-3 II-7 11-72 Tl-1026 1-3 II-7 11-74 Tl-1027 1-3 II-7 11-76 Tl-1028 1-3 II-7 11-78 Tl-1029 1-3 II-7 11-84 T1-1O3O 1-3 II-7 11-85

- 89 030875

Tl-1031 1-3 II-7 11-86 Tl-1032 1-3 II-7 11-92 Tl-1033 1-3 II-8 II-11 Tl-1034 1-3 II-8 11-16 Tl-1035 1-3 II-8 11-21 Tl-1036 1-3 II-8 11-26 Tl-1037 1-3 II-8 11-32 Tl-1038 1-3 II-8 11-33 Tl-1039 1-3 II-8 11-37 Tl-1040 1-3 II-8 11-39 Tl-1041 1-3 II-8 11-42 Tl-1042 1-3 II-8 11-44 Tl-1043 1-3 II-8 11-50 Tl-1044 1-3 II-8 11-53 Tl-1045 1-3 II-8 11-60 Tl-1046 1-3 II-8 11-62 Tl-1047 1-3 II-8 11-66 Tl-1048 1-3 II-8 11-69 Tl-1049 1-3 II-8 11-70 Tl-1050 1-3 II-8 11-71 Tl-1051 1-3 II-8 11-72 Tl-1052 1-3 II-8 11-74 Tl-1053 1-3 II-8 11-76 Tl-1054 1-3 II-8 11-78 Tl-1055 1-3 II-8 11-84 Tl-1056 1-3 II-8 11-85 Tl-1057 1-3 II-8 11-86 Tl-1058 1-3 II-8 11-92 Tl-1059 1-3 II-11 11-16 Tl-1060 1-3 II-11 11-21 Tl-1061 1-3 II-11 11-26 Tl-1062 1-3 II-11 11-32 Tl-1063 1-3 II-11 11-33 Tl-1064 1-3 II-11 11-37 Tl-1065 1-3 II-11 11-39 Tl-1066 1-3 II-11 11-42 Tl-1067 1-3 II-11 11-44 Tl-1068 1-3 II-11 11-50 Tl-1069 1-3 II-11 11-53 Tl-1070 1-3 II-11 11-60 Tl-1071 1-3 II-11 11-62 Tl-1072 1-3 II-11 11-66 Tl-1073 1-3 II-11 11-69 Tl-1074 1-3 II-11 11-70 Tl-1075 1-3 II-11 11-71 Tl-1076 1-3 II-11 11-72

- 90 030875

Tl-1077 1-3 II-11 11-74 Tl-1078 1-3 II-11 11-76 Tl-1079 1-3 II-11 11-78 Tl-1080 1-3 II-11 11-84 Tl-1081 1-3 II-11 11-85 Tl-1082 1-3 II-11 11-86 Tl-1083 1-3 II-11 11-92 Tl-1084 1-3 11-16 11-21 Tl-1085 1-3 11-16 11-26 Tl-1086 1-3 11-16 11-32 Tl-1087 1-3 11-16 11-33 Tl-1088 1-3 11-16 11-37 Tl-1089 1-3 11-16 11-39 Tl-1090 1-3 11-16 11-42 Tl-1091 1-3 11-16 11-44 Tl-1092 1-3 11-16 11-50 Tl-1093 1-3 11-16 11-53 Tl-1094 1-3 11-16 11-60 Tl-1095 1-3 11-16 11-62 Tl-1096 1-3 11-16 11-66 Tl-1097 1-3 11-16 11-69 Tl-1098 1-3 11-16 11-70 Tl-1099 1-3 11-16 11-71 Tl-1100 1-3 11-16 11-72 Tl-1101 1-3 11-16 11-74 Tl-1102 1-3 11-16 11-76 Tl-1103 1-3 11-16 11-78 Tl-1104 1-3 11-16 11-84 Tl-1105 1-3 11-16 11-85 Tl-1106 1-3 11-16 11-86 Tl-1107 1-3 11-16 11-92 Tl-1108 1-3 11-21 11-26 Tl-1109 1-3 11-21 11-32 Tl-1110 1-3 11-21 11-33 Tl-1111 1-3 11-21 11-37 Tl-1112 1-3 11-21 11-39 Tl-1113 1-3 11-21 11-42 Tl-1114 1-3 11-21 11-44 Tl-1115 1-3 11-21 11-50 Tl-1116 1-3 11-21 11-53 Tl-1117 1-3 11-21 11-60 Tl-1118 1-3 11-21 11-62 Tl-1119 1-3 11-21 11-66 Tl-1120 1-3 11-21 11-69 Tl-1121 1-3 11-21 11-70 Tl-1122 1-3 11-21 11-71

- 91 030875

Tl-1123 1-3 11-21 11-72 Tl-1124 1-3 11-21 11-74 Tl-1125 1-3 11-21 11-76 Tl-1126 1-3 11-21 11-78 Tl-1127 1-3 11-21 11-84 Tl-1128 1-3 11-21 11-85 Tl-1129 1-3 11-21 11-86 Tl-1130 1-3 11-21 11-92 Tl-1131 1-3 11-26 11-32 Tl-1132 1-3 11-26 11-33 Tl-1133 1-3 11-26 11-37 Tl-1134 1-3 11-26 11-39 Tl-1135 1-3 11-26 11-42 Tl-1136 1-3 11-26 11-44 Tl-1137 1-3 11-26 11-50 Tl-1138 1-3 11-26 11-53 Tl-1139 1-3 11-26 11-60 Tl-1140 1-3 11-26 11-62 Tl-1141 1-3 11-26 11-66 Tl-1142 1-3 11-26 11-69 Tl-1143 1-3 11-26 11-70 Tl-1144 1-3 11-26 11-71 Tl-1145 1-3 11-26 11-72 Tl-1146 1-3 11-26 11-74 Tl-1147 1-3 11-26 11-76 Tl-1148 1-3 11-26 11-78 Tl-1149 1-3 11-26 11-84 Tl-1150 1-3 11-26 11-85 Tl-1151 1-3 11-26 11-86 Tl-1152 1-3 11-26 11-92 Tl-1153 1-3 11-32 11-33 Tl-1154 1-3 11-32 11-37 Tl-1155 1-3 11-32 11-39 Tl-1156 1-3 11-32 11-42 Tl-1157 1-3 11-32 11-44 Tl-1158 1-3 11-32 11-50 Tl-1159 1-3 11-32 11-53 Tl-1160 1-3 11-32 11-60 Tl-1161 1-3 11-32 11-62 Tl-1162 1-3 11-32 11-66 Tl-1163 1-3 11-32 11-69 Tl-1164 1-3 11-32 11-70 Tl-1165 1-3 11-32 11-71 Tl-1166 1-3 11-32 11-72 Tl-1167 1-3 11-32 11-74 Tl-1168 1-3 11-32 11-76

- 92 030875

Tl-1169 1-3 11-32 11-78 Tl-1170 1-3 11-32 11-84 Tl-1171 1-3 11-32 11-85 Tl-1172 1-3 11-32 11-86 Tl-1173 1-3 11-32 11-92 Tl-1174 1-3 11-33 11-37 Tl-1175 1-3 11-33 11-39 Tl-1176 1-3 11-33 11-42 Tl-1177 1-3 11-33 11-44 Tl-1178 1-3 11-33 11-50 Tl-1179 1-3 11-33 11-53 Tl-1180 1-3 11-33 11-60 Tl-1181 1-3 11-33 11-62 Tl-1182 1-3 11-33 11-66 Tl-1183 1-3 11-33 11-69 Tl-1184 1-3 11-33 11-70 Tl-1185 1-3 11-33 11-71 Tl-1186 1-3 11-33 11-72 Tl-1187 1-3 11-33 11-74 Tl-1188 1-3 11-33 11-76 Tl-1189 1-3 11-33 11-78 Tl-1190 1-3 11-33 11-84 Tl-1191 1-3 11-33 11-85 Tl-1192 1-3 11-33 11-86 Tl-1193 1-3 11-33 11-92 Tl-1194 1-3 11-37 11-39 Tl-1195 1-3 11-37 11-42 Tl-1196 1-3 11-37 11-44 Tl-1197 1-3 11-37 11-50 Tl-1198 1-3 11-37 11-53 Tl-1199 1-3 11-37 11-60 Tl-1200 1-3 11-37 11-62 Tl-1201 1-3 11-37 11-66 Tl-1202 1-3 11-37 11-69 Tl-1203 1-3 11-37 11-70 Tl-1204 1-3 11-37 11-71 Tl-1205 1-3 11-37 11-72 Tl-1206 1-3 11-37 11-74 Tl-1207 1-3 11-37 11-76 Tl-1208 1-3 11-37 11-78 Tl-1209 1-3 11-37 11-84 Tl-1210 1-3 11-37 11-85 Tl-1211 1-3 11-37 11-86 Tl-1212 1-3 11-37 11-92 Tl-1213 1-3 11-39 11-42 Tl-1214 1-3 11-39 11-44

- 93 030875

Tl-1215 1-3 11-39 11-50 Tl-1216 1-3 11-39 11-53 Tl-1217 1-3 11-39 11-60 Tl-1218 1-3 11-39 11-62 Tl-1219 1-3 11-39 11-66 Tl-1220 1-3 11-39 11-69 Tl-1221 1-3 11-39 11-70 Tl-1222 1-3 11-39 11-71 Tl-1223 1-3 11-39 11-72 Tl-1224 1-3 11-39 11-74 Tl-1225 1-3 11-39 11-76 Tl-1226 1-3 11-39 11-78 Tl-1227 1-3 11-39 11-84 Tl-1228 1-3 11-39 11-85 Tl-1229 1-3 11-39 11-86 Tl-1230 1-3 11-39 11-92 Tl-1231 1-3 11-42 11-44 Tl-1232 1-3 11-42 11-50 Tl-1233 1-3 11-42 11-53 Tl-1234 1-3 11-42 11-60 Tl-1235 1-3 11-42 11-62 Tl-1236 1-3 11-42 11-66 Tl-1237 1-3 11-42 11-69 Tl-1238 1-3 11-42 11-70 Tl-1239 1-3 11-42 11-71 Tl-1240 1-3 11-42 11-72 Tl-1241 1-3 11-42 11-74 Tl-1242 1-3 11-42 11-76 Tl-1243 1-3 11-42 11-78 Tl-1244 1-3 11-42 11-84 Tl-1245 1-3 11-42 11-85 Tl-1246 1-3 11-42 11-86 Tl-1247 1-3 11-42 11-92 Tl-1248 1-3 11-44 11-50 Tl-1249 1-3 11-44 11-53 Tl-1250 1-3 11-44 11-60 Tl-1251 1-3 11-44 11-62 Tl-1252 1-3 11-44 11-66 Tl-1253 1-3 11-44 11-69 Tl-1254 1-3 11-44 11-70 Tl-1255 1-3 11-44 11-71 Tl-1256 1-3 11-44 11-72 Tl-1257 1-3 11-44 11-74 Tl-1258 1-3 11-44 11-76 Tl-1259 1-3 11-44 11-78 Tl-1260 1-3 11-44 11-84

- 94 030875

Tl-1261 1-3 11-44 11-85 Tl-1262 1-3 11-44 11-86 Tl-1263 1-3 11-44 11-92 Tl-1264 1-3 11-50 11-53 Tl-1265 1-3 11-50 11-60 Tl-1266 1-3 11-50 11-62 Tl-1267 1-3 11-50 11-66 Tl-1268 1-3 11-50 11-69 Tl-1269 1-3 11-50 11-70 Tl-1270 1-3 11-50 11-71 Tl-1271 1-3 11-50 11-72 Tl-1272 1-3 11-50 11-74 Tl-1273 1-3 11-50 11-76 Tl-1274 1-3 11-50 11-78 Tl-1275 1-3 11-50 11-84 Tl-1276 1-3 11-50 11-85 Tl-1277 1-3 11-50 11-86 Tl-1278 1-3 11-50 11-92 Tl-1279 1-3 11-53 11-60 Tl-1280 1-3 11-53 11-62 Tl-1281 1-3 11-53 11-66 Tl-1282 1-3 11-53 11-69 Tl-1283 1-3 11-53 11-70 Tl-1284 1-3 11-53 11-71 Tl-1285 1-3 11-53 11-72 Tl-1286 1-3 11-53 11-74 Tl-1287 1-3 11-53 11-76 Tl-1288 1-3 11-53 11-78 Tl-1289 1-3 11-53 11-84 Tl-1290 1-3 11-53 11-85 Tl-1291 1-3 11-53 11-86 Tl-1292 1-3 11-53 11-92 Tl-1293 1-3 11-60 11-62 Tl-1294 1-3 11-60 11-66 Tl-1295 1-3 11-60 11-69 Tl-1296 1-3 11-60 11-70 Tl-1297 1-3 11-60 11-71 Tl-1298 1-3 11-60 11-72 Tl-1299 1-3 11-60 11-74 Tl-1300 1-3 11-60 11-76 Tl-1301 1-3 11-60 11-78 Tl-1302 1-3 11-60 11-84 Tl-1303 1-3 11-60 11-85 Tl-1304 1-3 11-60 11-86 Tl-1305 1-3 11-60 11-92 Tl-1306 1-3 11-62 11-66

- 95 030875

Tl-1307 1-3 11-62 11-69 Tl-1308 1-3 11-62 11-70 Tl-1309 1-3 11-62 11-71 Tl-1310 1-3 11-62 11-72 Tl-1311 1-3 11-62 11-74 Tl-1312 1-3 11-62 11-76 Tl-1313 1-3 11-62 11-78 Tl-1314 1-3 11-62 11-84 Tl-1315 1-3 11-62 11-85 Tl-1316 1-3 11-62 11-86 Tl-1317 1-3 11-62 11-92 Tl-1318 1-3 11-66 11-69 Tl-1319 1-3 11-66 11-70 Tl-1320 1-3 11-66 11-71 Tl-1321 1-3 11-66 11-72 Tl-1322 1-3 11-66 11-74 Tl-1323 1-3 11-66 11-76 Tl-1324 1-3 11-66 11-78 Tl-1325 1-3 11-66 11-84 Tl-1326 1-3 11-66 11-85 Tl-1327 1-3 11-66 11-86 Tl-1328 1-3 11-66 11-92 Tl-1329 1-3 11-69 11-70 Tl-1330 1-3 11-69 11-71 Tl-1331 1-3 11-69 11-72 Tl-1332 1-3 11-69 11-74 Tl-1333 1-3 11-69 11-76 Tl-1334 1-3 11-69 11-78 Tl-1335 1-3 11-69 11-84 Tl-1336 1-3 11-69 11-85 Tl-1337 1-3 11-69 11-86 Tl-1338 1-3 11-69 11-92 Tl-1339 1-3 11-70 11-71 Tl-1340 1-3 11-70 11-72 Tl-1341 1-3 11-70 11-74 Tl-1342 1-3 11-70 11-76 Tl-1343 1-3 11-70 11-78 Tl-1344 1-3 11-70 11-84 Tl-1345 1-3 11-70 11-85 Tl-1346 1-3 11-70 11-86 Tl-1347 1-3 11-70 11-92 Tl-1348 1-3 11-71 11-72 Tl-1349 1-3 11-71 11-74 Tl-1350 1-3 11-71 11-76 Tl-1351 1-3 11-71 11-78 Tl-1352 1-3 11-71 11-84

- 96 030875

Tl-1353 1-3 11-71 11-85 Tl-1354 1-3 11-71 11-86 Tl-1355 1-3 11-71 11-92 Tl-1356 1-3 11-72 11-74 Tl-1357 1-3 11-74 11-76 Tl-1358 1-3 11-74 11-78 Tl-1359 1-3 11-74 11-84 Tl-1360 1-3 11-74 11-85 Tl-1361 1-3 11-74 11-86 Tl-1362 1-3 11-74 11-92 Tl-1363 1-3 11-76 11-78 Tl-1364 1-3 11-76 11-84 Tl-1365 1-3 11-76 11-85 Tl-1366 1-3 11-76 11-86 Tl-1367 1-3 11-76 11-92 Tl-1368 1-3 11-78 11-84 Tl-1369 1-3 11-78 11-85 Tl-1370 1-3 11-78 11-86 Tl-1371 1-3 11-78 11-92 Tl-1372 1-3 11-84 11-85 Tl-1373 1-3 11-84 11-86 Tl-1374 1-3 11-84 11-92 Tl-1375 1-3 11-85 11-86 Tl-1376 1-3 11-85 11-92 Tl-1377 1-3 11-86 11-92 Tl-1378 1-4 II-3 II-5 Tl-1379 1-4 II-3 II-6 Tl-1380 1-4 II-3 II-7 Tl-1381 1-4 II-3 II-8 Tl-1382 1-4 II-3 II-11 Tl-1383 1-4 II-3 11-16 Tl-1384 1-4 II-3 11-21 Tl-1385 1-4 II-3 11-26 Tl-1386 1-4 II-3 11-32 Tl-1387 1-4 II-3 11-33 Tl-1388 1-4 II-3 11-37 Tl-1389 1-4 II-3 11-39 Tl-1390 1-4 II-3 11-42 Tl-1391 1-4 II-3 11-44 Tl-1392 1-4 II-3 11-50 Tl-1393 1-4 II-3 11-53 Tl-1394 1-4 II-3 11-60 Tl-1395 1-4 II-3 11-62 Tl-1396 1-4 II-3 11-66 Tl-1397 1-4 II-3 11-69 Tl-1398 1-4 II-3 11-70

- 97 030875

Tl-1399 1-4 II-3 11-71 Tl-1400 1-4 II-3 11-72 Tl-1401 1-4 II-3 11-74 Tl-1402 1-4 II-3 11-76 Tl-1403 1-4 II-3 11-78 Tl-1404 1-4 II-3 11-84 Tl-1405 1-4 II-3 11-85 Tl-1406 1-4 II-3 11-86 Tl-1407 1-4 II-3 11-92 Tl-1408 1-4 II-5 II-6 Tl-1409 1-4 II-5 II-7 Tl-1410 1-4 II-5 II-8 Tl-1411 1-4 II-5 II-11 Tl-1412 1-4 II-5 11-16 Tl-1413 1-4 II-5 11-21 Tl-1414 1-4 II-5 11-26 Tl-1415 1-4 II-5 11-32 Tl-1416 1-4 II-5 11-33 Tl-1417 1-4 II-5 11-37 Tl-1418 1-4 II-5 11-39 Tl-1419 1-4 II-5 11-42 Tl-1420 1-4 II-5 11-44 Tl-1421 1-4 II-5 11-50 Tl-1422 1-4 II-5 11-53 Tl-1423 1-4 II-5 11-60 Tl-1424 1-4 II-5 11-62 Tl-1425 1-4 II-5 11-66 Tl-1426 1-4 II-5 11-69 Tl-1427 1-4 II-5 11-70 Tl-1428 1-4 II-5 11-71 Tl-1429 1-4 II-5 11-72 Tl-1430 1-4 II-5 11-74 Tl-1431 1-4 II-5 11-76 Tl-1432 1-4 II-5 11-78 Tl-1433 1-4 II-5 11-84 Tl-1434 1-4 II-5 11-85 Tl-1435 1-4 II-5 11-86 Tl-1436 1-4 II-5 11-92 Tl-1437 1-4 II-6 II-7 Tl-1438 1-4 II-6 II-8 Tl-1439 1-4 II-6 II-11 Tl-1440 1-4 II-6 11-16 Tl-1441 1-4 II-6 11-21 Tl-1442 1-4 II-6 11-26 Tl-1443 1-4 II-6 11-32 Tl-1444 1-4 II-6 11-33

- 98 030875

Tl-1445 1-4 II-6 11-37 Tl-1446 1-4 II-6 11-39 Tl-1447 1-4 II-6 11-42 Tl-1448 1-4 II-6 11-44 Tl-1449 1-4 II-6 11-50 Tl-1450 1-4 II-6 11-53 Tl-1451 1-4 II-6 11-60 Tl-1452 1-4 II-6 11-62 Tl-1453 1-4 II-6 11-66 Tl-1454 1-4 II-6 11-69 Tl-1455 1-4 II-6 11-70 Tl-1456 1-4 II-6 11-71 Tl-1457 1-4 II-6 11-72 Tl-1458 1-4 II-6 11-74 Tl-1459 1-4 II-6 11-76 Tl-1460 1-4 II-6 11-78 Tl-1461 1-4 II-6 11-84 Tl-1462 1-4 II-6 11-85 Tl-1463 1-4 II-6 11-86 Tl-1464 1-4 II-6 11-92 Tl-1465 1-4 II-7 II-8 Tl-1466 1-4 II-7 II-11 Tl-1467 1-4 II-7 11-16 Tl-1468 1-4 II-7 11-21 Tl-1469 1-4 II-7 11-26 Tl-1470 1-4 II-7 11-32 Tl-1471 1-4 II-7 11-33 Tl-1472 1-4 II-7 11-37 Tl-1473 1-4 II-7 11-39 Tl-1474 1-4 II-7 11-42 Tl-1475 1-4 II-7 11-44 Tl-1476 1-4 II-7 11-50 Tl-1477 1-4 II-7 11-53 Tl-1478 1-4 II-7 11-60 Tl-1479 1-4 II-7 11-62 Tl-1480 1-4 II-7 11-66 Tl-1481 1-4 II-7 11-69 Tl-1482 1-4 II-7 11-70 Tl-1483 1-4 II-7 11-71 Tl-1484 1-4 II-7 11-72 Tl-1485 1-4 II-7 11-74 Tl-1486 1-4 II-7 11-76 Tl-1487 1-4 II-7 11-78 Tl-1488 1-4 II-7 11-84 Tl-1489 1-4 II-7 11-85 Tl-1490 1-4 II-7 11-86

- 99 030875

Tl-1491 1-4 II-7 11-92 Tl-1492 1-4 II-8 II-11 Tl-1493 1-4 II-8 11-16 Tl-1494 1-4 II-8 11-21 Tl-1495 1-4 II-8 11-26 Tl-1496 1-4 II-8 11-32 Tl-1497 1-4 II-8 11-33 Tl-1498 1-4 II-8 11-37 Tl-1499 1-4 II-8 11-39 Tl-1500 1-4 II-8 11-42 Tl-1501 1-4 II-8 11-44 Tl-1502 1-4 II-8 11-50 Tl-1503 1-4 II-8 11-53 Tl-1504 1-4 II-8 11-60 Tl-1505 1-4 II-8 11-62 Tl-1506 1-4 II-8 11-66 Tl-1507 1-4 II-8 11-69 Tl-1508 1-4 II-8 11-70 Tl-1509 1-4 II-8 11-71 Tl-1510 1-4 II-8 11-72 Tl-1511 1-4 II-8 11-74 Tl-1512 1-4 II-8 11-76 Tl-1513 1-4 II-8 11-78 Tl-1514 1-4 II-8 11-84 Tl-1515 1-4 II-8 11-85 Tl-1516 1-4 II-8 11-86 Tl-1517 1-4 II-8 11-92 Tl-1518 1-4 II-11 11-16 Tl-1519 1-4 II-11 11-21 Tl-1520 1-4 II-11 11-26 Tl-1521 1-4 II-11 11-32 Tl-1522 1-4 II-11 11-33 Tl-1523 1-4 II-11 11-37 Tl-1524 1-4 II-11 11-39 Tl-1525 1-4 II-11 11-42 Tl-1526 1-4 II-11 11-44 Tl-1527 1-4 II-11 11-50 Tl-1528 1-4 II-11 11-53 Tl-1529 1-4 II-11 11-60 Tl-1530 1-4 II-11 11-62 Tl-1531 1-4 II-11 11-66 Tl-1532 1-4 II-11 11-69 Tl-1533 1-4 II-11 11-70 Tl-1534 1-4 II-11 11-71 Tl-1535 1-4 II-11 11-72 Tl-1536 1-4 II-11 11-74

- 100 030875

Tl-1537 1-4 II-11 11-76 Tl-1538 1-4 II-11 11-78 Tl-1539 1-4 II-11 11-84 Tl-1540 1-4 II-11 11-85 Tl-1541 1-4 II-11 11-86 Tl-1542 1-4 II-11 11-92 Tl-1543 1-4 11-16 11-21 Tl-1544 1-4 11-16 11-26 Tl-1545 1-4 11-16 11-32 Tl-1546 1-4 11-16 11-33 Tl-1547 1-4 11-16 11-37 Tl-1548 1-4 11-16 11-39 Tl-1549 1-4 11-16 11-42 Tl-1550 1-4 11-16 11-44 Tl-1551 1-4 11-16 11-50 Tl-1552 1-4 11-16 11-53 Tl-1553 1-4 11-16 11-60 Tl-1554 1-4 11-16 11-62 Tl-1555 1-4 11-16 11-66 Tl-1556 1-4 11-16 11-69 Tl-1557 1-4 11-16 11-70 Tl-1558 1-4 11-16 11-71 Tl-1559 1-4 11-16 11-72 Tl-1560 1-4 11-16 11-74 Tl-1561 1-4 11-16 11-76 Tl-1562 1-4 11-16 11-78 Tl-1563 1-4 11-16 11-84 Tl-1564 1-4 11-16 11-85 Tl-1565 1-4 11-16 11-86 Tl-1566 1-4 11-16 11-92 Tl-1567 1-4 11-21 11-26 Tl-1568 1-4 11-21 11-32 Tl-1569 1-4 11-21 11-33 Tl-1570 1-4 11-21 11-37 Tl-1571 1-4 11-21 11-39 Tl-1572 1-4 11-21 11-42 Tl-1573 1-4 11-21 11-44 Tl-1574 1-4 11-21 11-50 Tl-1575 1-4 11-21 11-53 Tl-1576 1-4 11-21 11-60 Tl-1577 1-4 11-21 11-62 Tl-1578 1-4 11-21 11-66 Tl-1579 1-4 11-21 11-69 Tl-1580 1-4 11-21 11-70 Tl-1581 1-4 11-21 11-71 Tl-1582 1-4 11-21 11-72

- 101 030875

Tl-1583 1-4 11-21 11-74 Tl-1584 1-4 11-21 11-76 Tl-1585 1-4 11-21 11-78 Tl-1586 1-4 11-21 11-84 Tl-1587 1-4 11-21 11-85 Tl-1588 1-4 11-21 11-86 Tl-1589 1-4 11-21 11-92 Tl-1590 1-4 11-26 11-32 Tl-1591 1-4 11-26 11-33 Tl-1592 1-4 11-26 11-37 Tl-1593 1-4 11-26 11-39 Tl-1594 1-4 11-26 11-42 Tl-1595 1-4 11-26 11-44 Tl-1596 1-4 11-26 11-50 Tl-1597 1-4 11-26 11-53 Tl-1598 1-4 11-26 11-60 Tl-1599 1-4 11-26 11-62 Tl-1600 1-4 11-26 11-66 Tl-1601 1-4 11-26 11-69 Tl-1602 1-4 11-26 11-70 Tl-1603 1-4 11-26 11-71 Tl-1604 1-4 11-26 11-72 Tl-1605 1-4 11-26 11-74 Tl-1606 1-4 11-26 11-76 Tl-1607 1-4 11-26 11-78 Tl-1608 1-4 11-26 11-84 Tl-1609 1-4 11-26 11-85 Tl-1610 1-4 11-26 11-86 Tl-1611 1-4 11-26 11-92 Tl-1612 1-4 11-32 11-33 Tl-1613 1-4 11-32 11-37 Tl-1614 1-4 11-32 11-39 Tl-1615 1-4 11-32 11-42 Tl-1616 1-4 11-32 11-44 Tl-1617 1-4 11-32 11-50 Tl-1618 1-4 11-32 11-53 Tl-1619 1-4 11-32 11-60 Tl-1620 1-4 11-32 11-62 Tl-1621 1-4 11-32 11-66 Tl-1622 1-4 11-32 11-69 Tl-1623 1-4 11-32 11-70 Tl-1624 1-4 11-32 11-71 Tl-1625 1-4 11-32 11-72 Tl-1626 1-4 11-32 11-74 Tl-1627 1-4 11-32 11-76 Tl-1628 1-4 11-32 11-78

- 102 030875

Tl-1629 1-4 11-32 11-84 Tl-1630 1-4 11-32 11-85 Tl-1631 1-4 11-32 11-86 Tl-1632 1-4 11-32 11-92 Tl-1633 1-4 11-33 11-37 Tl-1634 1-4 11-33 11-39 Tl-1635 1-4 11-33 11-42 Tl-1636 1-4 11-33 11-44 Tl-1637 1-4 11-33 11-50 Tl-1638 1-4 11-33 11-53 Tl-1639 1-4 11-33 11-60 Tl-1640 1-4 11-33 11-62 Tl-1641 1-4 11-33 11-66 Tl-1642 1-4 11-33 11-69 Tl-1643 1-4 11-33 11-70 Tl-1644 1-4 11-33 11-71 Tl-1645 1-4 11-33 11-72 Tl-1646 1-4 11-33 11-74 Tl-1647 1-4 11-33 11-76 Tl-1648 1-4 11-33 11-78 Tl-1649 1-4 11-33 11-84 Tl-1650 1-4 11-33 11-85 Tl-1651 1-4 11-33 11-86 Tl-1652 1-4 11-33 11-92 Tl-1653 1-4 11-37 11-39 Tl-1654 1-4 11-37 11-42 Tl-1655 1-4 11-37 11-44 Tl-1656 1-4 11-37 11-50 Tl-1657 1-4 11-37 11-53 Tl-1658 1-4 11-37 11-60 Tl-1659 1-4 11-37 11-62 Tl-1660 1-4 11-37 11-66 Tl-1661 1-4 11-37 11-69 Tl-1662 1-4 11-37 11-70 Tl-1663 1-4 11-37 11-71 Tl-1664 1-4 11-37 11-72 Tl-1665 1-4 11-37 11-74 Tl-1666 1-4 11-37 11-76 Tl-1667 1-4 11-37 11-78 Tl-1668 1-4 11-37 11-84 Tl-1669 1-4 11-37 11-85 Tl-1670 1-4 11-37 11-86 Tl-1671 1-4 11-37 11-92 Tl-1672 1-4 11-39 11-42 Tl-1673 1-4 11-39 11-44 Tl-1674 1-4 11-39 11-50

- 103 030875

Tl-1675 1-4 11-39 11-53 Tl-1676 1-4 11-39 11-60 Tl-1677 1-4 11-39 11-62 Tl-1678 1-4 11-39 11-66 Tl-1679 1-4 11-39 11-69 Tl-1680 1-4 11-39 11-70 Tl-1681 1-4 11-39 11-71 Tl-1682 1-4 11-39 11-72 Tl-1683 1-4 11-39 11-74 Tl-1684 1-4 11-39 11-76 Tl-1685 1-4 11-39 11-78 Tl-1686 1-4 11-39 11-84 Tl-1687 1-4 11-39 11-85 Tl-1688 1-4 11-39 11-86 Tl-1689 1-4 11-39 11-92 Tl-1690 1-4 11-42 11-44 Tl-1691 1-4 11-42 11-50 Tl-1692 1-4 11-42 11-53 Tl-1693 1-4 11-42 11-60 Tl-1694 1-4 11-42 11-62 Tl-1695 1-4 11-42 11-66 Tl-1696 1-4 11-42 11-69 Tl-1697 1-4 11-42 11-70 Tl-1698 1-4 11-42 11-71 Tl-1699 1-4 11-42 11-72 Tl-1700 1-4 11-42 11-74 Tl-1701 1-4 11-42 11-76 Tl-1702 1-4 11-42 11-78 Tl-1703 1-4 11-42 11-84 Tl-1704 1-4 11-42 11-85 Tl-1705 1-4 11-42 11-86 Tl-1706 1-4 11-42 11-92 Tl-1707 1-4 11-44 11-50 Tl-1708 1-4 11-44 11-53 Tl-1709 1-4 11-44 11-60 Tl-1710 1-4 11-44 11-62 Tl-1711 1-4 11-44 11-66 Tl-1712 1-4 11-44 11-69 Tl-1713 1-4 11-44 11-70 Tl-1714 1-4 11-44 11-71 Tl-1715 1-4 11-44 11-72 Tl-1716 1-4 11-44 11-74 Tl-1717 1-4 11-44 11-76 Tl-1718 1-4 11-44 11-78 Tl-1719 1-4 11-44 11-84 Tl-1720 1-4 11-44 11-85

- 104 030875

Tl-1721 1-4 11-44 11-86 Tl-1722 1-4 11-44 11-92 Tl-1723 1-4 11-50 11-53 Tl-1724 1-4 11-50 11-60 Tl-1725 1-4 11-50 11-62 Tl-1726 1-4 11-50 11-66 Tl-1727 1-4 11-50 11-69 Tl-1728 1-4 11-50 11-70 Tl-1729 1-4 11-50 11-71 Tl-1730 1-4 11-50 11-72 Tl-1731 1-4 11-50 11-74 Tl-1732 1-4 11-50 11-76 Tl-1733 1-4 11-50 11-78 Tl-1734 1-4 11-50 11-84 Tl-1735 1-4 11-50 11-85 Tl-1736 1-4 11-50 11-86 Tl-1737 1-4 11-50 11-92 Tl-1738 1-4 11-53 11-60 Tl-1739 1-4 11-53 11-62 Tl-1740 1-4 11-53 11-66 Tl-1741 1-4 11-53 11-69 Tl-1742 1-4 11-53 11-70 Tl-1743 1-4 11-53 11-71 Tl-1744 1-4 11-53 11-72 Tl-1745 1-4 11-53 11-74 Tl-1746 1-4 11-53 11-76 Tl-1747 1-4 11-53 11-78 Tl-1748 1-4 11-53 11-84 Tl-1749 1-4 11-53 11-85 Tl-1750 1-4 11-53 11-86 Tl-1751 1-4 11-53 11-92 Tl-1752 1-4 11-60 11-62 Tl-1753 1-4 11-60 11-66 Tl-1754 1-4 11-60 11-69 Tl-1755 1-4 11-60 11-70 Tl-1756 1-4 11-60 11-71 Tl-1757 1-4 11-60 11-72 Tl-1758 1-4 11-60 11-74 Tl-1759 1-4 11-60 11-76 Tl-1760 1-4 11-60 11-78 Tl-1761 1-4 11-60 11-84 Tl-1762 1-4 11-60 11-85 Tl-1763 1-4 11-60 11-86 Tl-1764 1-4 11-60 11-92 Tl-1765 1-4 11-62 11-66 Tl-1766 1-4 11-62 11-69

- 105 030875

T1-1767 1-4 P-62 P-70 T1-1768 1-4 P-62 P-71 T1-1769 1-4 P-62 P-72 T1-1770 1-4 P-62 P-74 T1-1771 1-4 P-62 P-76 T1-1772 1-4 P-62 P-78 T1-1773 1-4 P-62 P-84 T1-1774 1-4 P-62 P-85 T1-1775 1-4 P-62 P-86 T1-1776 1-4 P-62 P-92 T1-1777 1-4 P-66 P-69 T1-1778 1-4 P-66 P-70 T1-1779 1-4 P-66 P-71 T1-1780 1-4 P-66 P-72 T1-1781 1-4 P-66 P-74 T1-1782 1-4 P-66 P-76 T1-1783 1-4 P-66 P-78 T1-1784 1-4 P-66 P-84 T1-1785 1-4 P-66 P-85 T1-1786 1-4 P-66 P-86 T1-1787 1-4 P-66 P-92 T1-1788 1-4 P-69 P-70 T1-1789 1-4 P-69 P-71 T1-1790 1-4 P-69 P-72 T1-1791 1-4 P-69 P-74 T1-1792 1-4 P-69 P-76 T1-1793 1-4 P-69 P-78 T1-1794 1-4 P-69 P-84 T1-1795 1-4 P-69 P-85 T1-1796 1-4 P-69 P-86 T1-1797 1-4 P-69 P-92 T1-1798 1-4 P-70 P-71 T1-1799 1-4 P-70 P-72 T1-1800 1-4 P-70 P-74 T1-1801 1-4 P-70 P-76 T1-1802 1-4 P-70 P-78 T1-1803 1-4 P-70 P-84 T1-1804 1-4 P-70 P-85 T1-1805 1-4 P-70 P-86 T1-1806 1-4 P-70 P-92 T1-1807 1-4 P-71 P-72 T1-1808 1-4 P-71 P-74 T1-1809 1-4 P-71 P-76 T1-1810 1-4 P-71 P-78 T1-1811 1-4 P-71 P-84 T1-1812 1-4 P-71 P-85 T1-1813 1-4 P-71 P-86 T1-1814 1-4 P-71 P-92 T1-1815 1-4 P-72 P-74 T1-1816 1-4 P-74 P-76 T1-1817 1-4 P-74 P-78 T1-1818 1-4 P-74 P-84 T1-1819 1-4 P-74 P-85 T1-1820 1-4 P-74 P-86 T1-1821 1-4 P-74 P-92 T1-1822 1-4 P-76 P-78 T1-1823 1-4 P-76 P-84 T1-1824 1-4 P-76 P-85 T1-1825 1-4 P-76 P-86 T1-1826 1-4 P-76 P-92 T1-1827 1-4 P-78 P-84 T1-1828 1-4 P-78 P-85 T1-1829 1-4 P-78 P-86 T1-1830 1-4 P-78 P-92 T1-1831 1-4 P-84 P-85 T1-1832 1-4 P-84 P-86 T1-1833 1-4 P-84 P-92 T1-1834 1-4 P-85 P-86 T1-1835 1-4 P-85 P-92 T1-1836 1-4 P-86 P-92

As described in detail above, components I contain centers of chirality and therefore can be present as racemic mixtures, as pure enantiomers, or in two enantiomers of one component I can be present in any ratio (S) :( R).

In accordance with specific embodiments of the invention, the corresponding component I is present in the form of (S) enantiomer. Special three-component compositions containing (S)

- 106 030875 enantiomer of the corresponding component I, are given in table. T1s, in which each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, these are ternary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. T1s: three-component compositions containing one component I as (S) enantiomer (abbreviated as (S) -I, for example, (S) -I-1 for ^) - enantiomer I-1), one component II and one component III , in particular ternary compositions containing the corresponding component I in the form of (S) enantiomer, II and III only as active substances.

T1s table

compo (S) -I II III position Tls-1 (S) -Il P-3 II-5 Tls-2 (S) -Il P-3 P-6 Tls-3 (S) -Il P-3 P-7 Tls-4 (S) -Il P-3 II-8 Tls-5 (S) -Il P-3 11-11 Tls-6 (S) -Il P-3 11-16 Tls-7 (S) -Il P-3 11-21 Tls-8 (S) -Il P-3 11-26 Tls-9 (S) -Il P-3 11-32 Tls-10 (S) -Il P-3 11-33 Tls-11 (S) -Il P-3 11-37 Tls-12 (S) -Il P-3 11-39 Tls-13 (S) -Il P-3 11-42 Tls-14 (S) -Il P-3 11-44 Tls-15 (S) -Il P-3 11-50 Tls-16 (S) -Il P-3 11-53 Tls-17 (S) -Il P-3 11-60 Tls-18 (S) -Il P-3 11-62 Tls-19 (S) -Il P-3 11-66 Tls-20 (S) -Il P-3 11-69 Tls-21 (S) -Il P-3 11-70 Tls-22 (S) -Il P-3 11-71 Tls-23 (S) -Il P-3 11-72 Tls-24 (S) -Il P-3 11-74 Tls-25 (S) -Il P-3 11-76 Tls-26 (S) -Il P-3 11-78 Tls-27 (S) -Il P-3 11-84 Tls-28 (S) -Il P-3 11-85 Tls-29 (S) -Il P-3 11-86 Tls-30 (S) -Il P-3 11-92 Tls-31 (S) -Il II-5 P-6 Tls-32 (S) -Il II-5 P-7 Tls-33 (S) -Il II-5 II-8 Tls-34 (S) -Il II-5 11-11 Tls-35 (S) -Il II-5 11-16 Tls-36 (S) -Il II-5 11-21 Tls-37 (S) -Il II-5 11-26 Tls-38 (S) -Il II-5 11-32 Tls-39 (S) -Il II-5 11-33 Tls-40 (S) -Il II-5 11-37 Tls-41 (S) -Il II-5 11-39 Tls-42 (S) -Il II-5 11-42 Tls-43 (S) -Il II-5 11-44 Tls-44 (S) -Il II-5 11-50 Tls-45 (S) -Il II-5 11-53 Tls-46 (S) -Il II-5 11-60 Tls-47 (S) -Il II-5 11-62 Tls-48 (S) -Il II-5 11-66 Tls-49 (S) -Il II-5 11-69 Tls-50 (S) -Il II-5 11-70 Tls-51 (S) -Il II-5 11-71 Tls-52 (S) -Il II-5 11-72

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Tls-53 (S) -Il II-5 11-74 Tls-54 (S) -Il II-5 11-76 Tls-55 (S) -Il II-5 11-78 Tls-56 (S) -Il II-5 11-84 Tls-57 (S) -Il II-5 11-85 Tls-58 (S) -Il II-5 11-86 Tls-59 (S) -Il II-5 11-92 Tls-60 (S) -Il II-6 II-7 Tls-61 (S) -Il II-6 II-8 Tls-62 (S) -Il II-6 II-11 Tls-63 (S) -Il II-6 11-16 Tls-64 (S) -Il II-6 11-21 Tls-65 (S) -Il II-6 11-26 Tls-66 (S) -Il II-6 11-32 Tls-67 (S) -Il II-6 11-33 Tls-68 (S) -Il II-6 11-37 Tls-69 (S) -Il II-6 11-39 Tls-70 (S) -Il II-6 11-42 Tls-71 (S) -Il II-6 11-44 Tls-72 (S) -Il II-6 11-50 Tls-73 (S) -Il II-6 11-53 Tls-74 (S) -Il II-6 11-60 Tls-75 (S) -Il II-6 11-62 Tls-76 (S) -Il II-6 11-66 Tls-77 (S) -Il II-6 11-69 Tls-78 (S) -Il II-6 11-70 Tls-79 (S) -Il II-6 11-71 Tls-80 (S) -Il II-6 11-72 Tls-81 (S) -Il II-6 11-74 Tls-82 (S) -Il II-6 11-76 Tls-83 (S) -Il II-6 11-78 Tls-84 (S) -Il II-6 11-84 Tls-85 (S) -Il II-6 11-85 Tls-86 (S) -Il II-6 11-86 Tls-87 (S) -Il II-6 11-92 Tls-88 (S) -Il II-7 II-8 Tls-89 (S) -Il II-7 II-11 Tls-90 (S) -Il II-7 11-16 Tls-91 (S) -Il II-7 11-21 Tls-92 (S) -Il II-7 11-26 Tls-93 (S) -Il II-7 11-32 Tls-94 (S) -Il II-7 11-33 Tls-95 (S) -Il II-7 11-37 Tls-96 (S) -Il II-7 11-39 Tls-97 (S) -Il II-7 11-42 Tls-98 (S) -Il II-7 11-44

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Tls-99 (S) -Il II-7 11-50 Tls-100 (S) -Il II-7 11-53 Tls-101 (S) -Il II-7 11-60 Tls-102 (S) -Il II-7 11-62 Tls-103 (S) -Il II-7 11-66 Tls-104 (S) -Il II-7 11-69 Tls-105 (S) -Il II-7 11-70 Tls-106 (S) -Il II-7 11-71 Tls-107 (S) -Il II-7 11-72 Tls-108 (S) -Il II-7 11-74 Tls-109 (S) -Il II-7 11-76 Tls-110 (S) -Il II-7 11-78 Tls-111 (S) -Il II-7 11-84 Tls-112 (S) -Il II-7 11-85 Tls-113 (S) -Il II-7 11-86 Tls-114 (S) -Il II-7 11-92 Tls-115 (S) -Il II-8 II-11 Tls-116 (S) -Il II-8 11-16 Tls-117 (S) -Il II-8 11-21 Tls-118 (S) -Il II-8 11-26 Tls-119 (S) -Il II-8 11-32 Tls-120 (S) -Il II-8 11-33 Tls-121 (S) -Il II-8 11-37 Tls-122 (S) -Il II-8 11-39 Tls-123 (S) -Il II-8 11-42 Tls-124 (S) -Il II-8 11-44 Tls-125 (S) -Il II-8 11-50 Tls-126 (S) -Il II-8 11-53 Tls-127 (S) -Il II-8 11-60 Tls-128 (S) -Il II-8 11-62 Tls-129 (S) -Il II-8 11-66 Tls-130 (S) -Il II-8 11-69 Tls-131 (S) -Il II-8 11-70 Tls-132 (S) -Il II-8 11-71 Tls-133 (S) -Il II-8 11-72 Tls-134 (S) -Il II-8 11-74 Tls-135 (S) -Il II-8 11-76 Tls-136 (S) -Il II-8 11-78 Tls-137 (S) -Il II-8 11-84 Tls-138 (S) -Il II-8 11-85 Tls-139 (S) -Il II-8 11-86 Tls-140 (S) -Il II-8 11-92 Tls-141 (S) -Il II-11 11-16 Tls-142 (S) -Il II-11 11-21 Tls-143 (S) -Il II-11 11-26 Tls-144 (S) -Il II-11 11-32

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Tls-145 (S) -Il II-11 11-33 Tls-146 (S) -Il II-11 11-37 Tls-147 (S) -Il II-11 11-39 Tls-148 (S) -Il II-11 11-42 Tls-149 (S) -Il II-11 11-44 Tls-150 (S) -Il II-11 11-50 Tls-151 (S) -Il II-11 11-53 Tls-152 (S) -Il II-11 11-60 Tls-153 (S) -Il II-11 11-62 Tls-154 (S) -Il II-11 11-66 Tls-155 (S) -Il II-11 11-69 Tls-156 (S) -Il II-11 11-70 Tls-157 (S) -Il II-11 11-71 Tls-158 (S) -Il II-11 11-72 Tls-159 (S) -Il II-11 11-74 Tls-160 (S) -Il II-11 11-76 Tls-161 (S) -Il II-11 11-78 Tls-162 (S) -Il II-11 11-84 Tls-163 (S) -Il II-11 11-85 Tls-164 (S) -Il II-11 11-86 Tls-165 (S) -Il II-11 11-92 Tls-166 (S) -Il 11-16 11-21 Tls-167 (S) -Il 11-16 11-26 Tls-168 (S) -Il 11-16 11-32 Tls-169 (S) -Il 11-16 11-33 Tls-170 (S) -Il 11-16 11-37 Tls-171 (S) -Il 11-16 11-39 Tls-172 (S) -Il 11-16 11-42 Tls-173 (S) -Il 11-16 11-44 Tls-174 (S) -Il 11-16 11-50 Tls-175 (S) -Il 11-16 11-53 Tls-176 (S) -Il 11-16 11-60 Tls-177 (S) -Il 11-16 11-62 Tls-178 (S) -Il 11-16 11-66 Tls-179 (S) -Il 11-16 11-69 Tls-180 (S) -Il 11-16 11-70 Tls-181 (S) -Il 11-16 11-71 Tls-182 (S) -Il 11-16 11-72 Tls-183 (S) -Il 11-16 11-74 Tls-184 (S) -Il 11-16 11-76 Tls-185 (S) -Il 11-16 11-78 Tls-186 (S) -Il 11-16 11-84 Tls-187 (S) -Il 11-16 11-85 Tls-188 (S) -Il 11-16 11-86 Tls-189 (S) -Il 11-16 11-92 Tls-190 (S) -Il 11-21 11-26

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Tls-191 (S) -Il 11-21 11-32 Tls-192 (S) -Il 11-21 11-33 Tls-193 (S) -Il 11-21 11-37 Tls-194 (S) -Il 11-21 11-39 Tls-195 (S) -Il 11-21 11-42 Tls-196 (S) -Il 11-21 11-44 Tls-197 (S) -Il 11-21 11-50 Tls-198 (S) -Il 11-21 11-53 Tls-199 (S) -Il 11-21 11-60 Tls-200 (S) -Il 11-21 11-62 Tls-201 (S) -Il 11-21 11-66 Tls-202 (S) -Il 11-21 11-69 Tls-203 (S) -Il 11-21 11-70 Tls-204 (S) -Il 11-21 11-71 Tls-205 (S) -Il 11-21 11-72 Tls-206 (S) -Il 11-21 11-74 Tls-207 (S) -Il 11-21 11-76 Tls-208 (S) -Il 11-21 11-78 Tls-209 (S) -Il 11-21 11-84 Tls-210 (S) -Il 11-21 11-85 Tls-211 (S) -Il 11-21 11-86 Tls-212 (S) -Il 11-21 11-92 Tls-213 (S) -Il 11-26 11-32 Tls-214 (S) -Il 11-26 11-33 Tls-215 (S) -Il 11-26 11-37 Tls-216 (S) -Il 11-26 11-39 Tls-217 (S) -Il 11-26 11-42 Tls-218 (S) -Il 11-26 11-44 Tls-219 (S) -Il 11-26 11-50 Tls-220 (S) -Il 11-26 11-53 Tls-221 (S) -Il 11-26 11-60 Tls-222 (S) -Il 11-26 11-62 Tls-223 (S) -Il 11-26 11-66 Tls-224 (S) -Il 11-26 11-69 Tls-225 (S) -Il 11-26 11-70 Tls-226 (S) -Il 11-26 11-71 Tls-227 (S) -Il 11-26 11-72 Tls-228 (S) -Il 11-26 11-74 Tls-229 (S) -Il 11-26 11-76 Tls-230 (S) -Il 11-26 11-78 Tls-231 (S) -Il 11-26 11-84 Tls-232 (S) -Il 11-26 11-85 Tls-233 (S) -Il 11-26 11-86 Tls-234 (S) -Il 11-26 11-92 Tls-235 (S) -Il 11-32 11-33 Tls-236 (S) -Il 11-32 11-37

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Tls-237 (S) -Il 11-32 11-39 Tls-238 (S) -Il 11-32 11-42 Tls-239 (S) -Il 11-32 11-44 Tls-240 (S) -Il 11-32 11-50 Tls-241 (S) -Il 11-32 11-53 Tls-242 (S) -Il 11-32 11-60 Tls-243 (S) -Il 11-32 11-62 Tls-244 (S) -Il 11-32 11-66 Tls-245 (S) -Il 11-32 11-69 Tls-246 (S) -Il 11-32 11-70 Tls-247 (S) -Il 11-32 11-71 Tls-248 (S) -Il 11-32 11-72 Tls-249 (S) -Il 11-32 11-74 Tls-250 (S) -Il 11-32 11-76 Tls-251 (S) -Il 11-32 11-78 Tls-252 (S) -Il 11-32 11-84 Tls-253 (S) -Il 11-32 11-85 Tls-254 (S) -Il 11-32 11-86 Tls-255 (S) -Il 11-32 11-92 Tls-256 (S) -Il 11-33 11-37 Tls-257 (S) -Il 11-33 11-39 Tls-258 (S) -Il 11-33 11-42 Tls-259 (S) -Il 11-33 11-44 Tls-260 (S) -Il 11-33 11-50 Tls-261 (S) -Il 11-33 11-53 Tls-262 (S) -Il 11-33 11-60 Tls-263 (S) -Il 11-33 11-62 Tls-264 (S) -Il 11-33 11-66 Tls-265 (S) -Il 11-33 11-69 Tls-266 (S) -Il 11-33 11-70 Tls-267 (S) -Il 11-33 11-71 Tls-268 (S) -Il 11-33 11-72 Tls-269 (S) -Il 11-33 11-74 Tls-270 (S) -Il 11-33 11-76 Tls-271 (S) -Il 11-33 11-78 Tls-272 (S) -Il 11-33 11-84 Tls-273 (S) -Il 11-33 11-85 Tls-274 (S) -Il 11-33 11-86 Tls-275 (S) -Il 11-33 11-92 Tls-276 (S) -Il 11-37 11-39 Tls-277 (S) -Il 11-37 11-42 Tls-278 (S) -Il 11-37 11-44 Tls-279 (S) -Il 11-37 11-50 Tls-280 (S) -Il 11-37 11-53 Tls-281 (S) -Il 11-37 11-60 Tls-282 (S) -Il 11-37 11-62

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Tls-283 (S) -Il 11-37 11-66 Tls-284 (S) -Il 11-37 11-69 Tls-285 (S) -Il 11-37 11-70 Tls-286 (S) -Il 11-37 11-71 Tls-287 (S) -Il 11-37 11-72 Tls-288 (S) -Il 11-37 11-74 Tls-289 (S) -Il 11-37 11-76 Tls-290 (S) -Il 11-37 11-78 Tls-291 (S) -Il 11-37 11-84 Tls-292 (S) -Il 11-37 11-85 Tls-293 (S) -Il 11-37 11-86 Tls-294 (S) -II 11-37 11-92 Tls-295 (S) -Il 11-39 11-42 Tls-296 (S) -Il 11-39 11-44 Tls-297 (S) -Il 11-39 11-50 Tls-298 (S) -Il 11-39 11-53 Tls-299 (S) -Il 11-39 11-60 Tls-300 (S) -Il 11-39 11-62 Tls-301 (S) -Il 11-39 11-66 Tls-302 (S) -Il 11-39 11-69 Tls-303 (S) -Il 11-39 11-70 Tls-304 (S) -Il 11-39 11-71 Tls-305 (S) -Il 11-39 11-72 Tls-306 (S) -Il 11-39 11-74 Tls-307 (S) -Il 11-39 11-76 Tls-308 (S) -Il 11-39 11-78 Tls-309 (S) -Il 11-39 11-84 Tls-310 (S) -Il 11-39 11-85 Tls-311 (S) -Il 11-39 11-86 Tls-312 (S) -Il 11-39 11-92 Tls-313 (S) -Il 11-42 11-44 Tls-314 (S) -Il 11-42 11-50 Tls-315 (S) -Il 11-42 11-53 Tls-316 (S) -Il 11-42 11-60 Tls-317 (S) -Il 11-42 11-62 Tls-318 (S) -Il 11-42 11-66 Tls-319 (S) -Il 11-42 11-69 Tls-320 (S) -Il 11-42 11-70 Tls-321 (S) -Il 11-42 11-71 Tls-322 (S) -Il 11-42 11-72 Tls-323 (S) -Il 11-42 11-74 Tls-324 (S) -Il 11-42 11-76 Tls-325 (S) -Il 11-42 11-78 Tls-326 (S) -Il 11-42 11-84 Tls-327 (S) -Il 11-42 11-85 Tls-328 (S) -Il 11-42 11-86

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Tls-329 (S) -Il 11-42 11-92 Tls-330 (S) -Il 11-44 11-50 Tls-331 (S) -Il 11-44 11-53 Tls-332 (S) -Il 11-44 11-60 Tls-333 (S) -Il 11-44 11-62 Tls-334 (S) -Il 11-44 11-66 Tls-335 (S) -Il 11-44 11-69 Tls-336 (S) -Il 11-44 11-70 Tls-337 (S) -Il 11-44 11-71 Tls-338 (S) -Il 11-44 11-72 Tls-339 (S) -Il 11-44 11-74 Tls-340 (S) -Il 11-44 11-76 Tls-341 (S) -Il 11-44 11-78 Tls-342 (S) -Il 11-44 11-84 Tls-343 (S) -Il 11-44 11-85 Tls-344 (S) -Il 11-44 11-86 Tls-345 (S) -Il 11-44 11-92 Tls-346 (S) -Il 11-50 11-53 Tls-347 (S) -Il 11-50 11-60 Tls-348 (S) -Il 11-50 11-62 Tls-349 (S) -Il 11-50 11-66 Tls-350 (S) -Il 11-50 11-69 Tls-351 (S) -Il 11-50 11-70 Tls-352 (S) -Il 11-50 11-71 Tls-353 (S) -Il 11-50 11-72 Tls-354 (S) -Il 11-50 11-74 Tls-355 (S) -Il 11-50 11-76 Tls-356 (S) -Il 11-50 11-78 Tls-357 (S) -Il 11-50 11-84 Tls-358 (S) -Il 11-50 11-85 Tls-359 (S) -Il 11-50 11-86 Tls-360 (S) -Il 11-50 11-92 Tls-361 (S) -Il 11-53 11-60 Tls-362 (S) -Il 11-53 11-62 Tls-363 (S) -Il 11-53 11-66 Tls-364 (S) -Il 11-53 11-69 Tls-365 (S) -Il 11-53 11-70 Tls-366 (S) -Il 11-53 11-71 Tls-367 (S) -Il 11-53 11-72 Tls-368 (S) -Il 11-53 11-74 Tls-369 (S) -Il 11-53 11-76 Tls-370 (S) -Il 11-53 11-78 Tls-371 (S) -Il 11-53 11-84 Tls-372 (S) -Il 11-53 11-85 Tls-373 (S) -Il 11-53 11-86 Tls-374 (S) -Il 11-53 11-92

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Tls-375 (S) -Il 11-60 11-62 Tls-376 (S) -Il 11-60 11-66 Tls-377 (S) -Il 11-60 11-69 Tls-378 (S) -Il 11-60 11-70 Tls-379 (S) -Il 11-60 11-71 Tls-380 (S) -Il 11-60 11-72 Tls-381 (S) -Il 11-60 11-74 Tls-382 (S) -Il 11-60 11-76 Tls-383 (S) -Il 11-60 11-78 Tls-384 (S) -Il 11-60 11-84 Tls-385 (S) -Il 11-60 11-85 Tls-386 (S) -Il 11-60 11-86 Tls-387 (S) -Il 11-60 11-92 Tls-388 (S) -Il 11-62 11-66 Tls-389 (S) -Il 11-62 11-69 Tls-390 (S) -II 11-62 11-70 Tls-391 (S) -Il 11-62 11-71 Tls-392 (S) -Il 11-62 11-72 Tls-393 (S) -Il 11-62 11-74 Tls-394 (S) -Il 11-62 11-76 Tls-395 (S) -Il 11-62 11-78 Tls-396 (S) -Il 11-62 11-84 Tls-397 (S) -Il 11-62 11-85 Tls-398 (S) -Il 11-62 11-86 Tls-399 (S) -Il 11-62 11-92 Tls-400 (S) -II 11-66 11-69 Tls-401 (S) -Il 11-66 11-70 Tls-402 (S) -Il 11-66 11-71 Tls-403 (S) -Il 11-66 11-72 Tls-404 (S) -Il 11-66 11-74 Tls-405 (S) -II 11-66 11-76 Tls-406 (S) -Il 11-66 11-78 Tls-407 (S) -Il 11-66 11-84 Tls-408 (S) -Il 11-66 11-85 Tls-409 (S) -Il 11-66 11-86 Tls-410 (S) -Il 11-66 11-92 Tls-411 (S) -Il 11-69 11-70 Tls-412 (S) -Il 11-69 11-71 Tls-413 (S) -Il 11-69 11-72 Tls-414 (S) -Il 11-69 11-74 Tls-415 (S) -Il 11-69 11-76 Tls-416 (S) -Il 11-69 11-78 Tls-417 (S) -Il 11-69 11-84 Tls-418 (S) -Il 11-69 11-85 Tls-419 (S) -Il 11-69 11-86 Tls-420 (S) -II 11-69 11-92

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Tls-421 (S) -Il 11-70 11-71 Tls-422 (S) -Il 11-70 11-72 Tls-423 (S) -Il 11-70 11-74 Tls-424 (S) -Il 11-70 11-76 Tls-425 (S) -Il 11-70 11-78 Tls-426 (S) -Il 11-70 11-84 Tls-427 (S) -Il 11-70 11-85 Tls-428 (S) -Il 11-70 11-86 Tls-429 (S) -Il 11-70 11-92 Tls-430 (S) -Il 11-71 11-72 Tls-431 (S) -Il 11-71 11-74 Tls-432 (S) -Il 11-71 11-76 Tls-433 (S) -Il 11-71 11-78 Tls-434 (S) -Il 11-71 11-84 Tls-435 (S) -Il 11-71 11-85 Tls-436 (S) -Il 11-71 11-86 Tls-437 (S) -Il 11-71 11-92 Tls-438 (S) -Il 11-72 11-74 Tls-439 (S) -Il 11-74 11-76 Tls-440 (S) -Il 11-74 11-78 Tls-441 (S) -Il 11-74 11-84 Tls-442 (S) -Il 11-74 11-85 Tls-443 (S) -Il 11-74 11-86 Tls-444 (S) -Il 11-74 11-92 Tls-445 (S) -Il 11-76 11-78 Tls-446 (S) -Il 11-76 11-84 Tls-447 (S) -Il 11-76 11-85 Tls-448 (S) -Il 11-76 11-86 Tls-449 (S) -Il 11-76 11-92 Tls-450 (S) -Il 11-78 11-84 Tls-451 (S) -Il 11-78 11-85 Tls-452 (S) -Il 11-78 11-86 Tls-453 (S) -Il 11-78 11-92 Tls-454 (S) -Il 11-84 11-85 Tls-455 (S) -Il 11-84 11-86 Tls-456 (S) -Il 11-84 11-92 Tls-457 (S) -Il 11-85 11-86 Tls-458 (S) -Il 11-85 11-92 Tls-459 (S) -Il 11-86 11-92 Tls-460 (S) -I-5 II-3 II-5 Tls-461 (S) -I-5 II-3 II-6 Tls-462 (S) -I-5 II-3 II-7 Tls-463 (S) -I-5 II-3 II-8 Tls-464 (S) -I-5 II-3 II-11 Tls-465 (S) -I-5 II-3 11-16 Tls-466 (S) -I-5 II-3 11-21

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Tls-467 (S) -I-5 II-3 11-26 Tls-468 (S) -I-5 II-3 11-32 Tls-469 (S) -I-5 II-3 11-33 Tls-470 (S) -I-5 II-3 11-37 Tls-471 (S) -I-5 II-3 11-39 Tls-472 (S) -I-5 II-3 11-42 Tls-473 (S) -I-5 II-3 11-44 Tls-474 (S) -I-5 II-3 11-50 Tls-475 (S) -I-5 II-3 11-53 Tls-476 (S) -I-5 II-3 11-60 Tls-477 (S) -I-5 II-3 11-62 Tls-478 (S) -I-5 II-3 11-66 Tls-479 (S) -I-5 II-3 11-69 Tls-480 (S) -I-5 II-3 11-70 Tls-481 (S) -I-5 II-3 11-71 Tls-482 (S) -I-5 II-3 11-72 Tls-483 (S) -I-5 II-3 11-74 Tls-484 (S) -I-5 II-3 11-76 Tls-485 (S) -I-5 II-3 11-78 Tls-486 (S) -I-5 II-3 11-84 Tls-487 (S) -I-5 II-3 11-85 Tls-488 (S) -I-5 II-3 11-86 Tls-489 (S) -I-5 II-3 11-92 Tls-490 (S) -I-5 II-5 II-6 Tls-491 (S) -I-5 II-5 II-7 Tls-492 (S) -I-5 II-5 II-8 Tls-493 (S) -I-5 II-5 II-11 Tls-494 (S) -I-5 II-5 11-16 Tls-495 (S) -I-5 II-5 11-21 Tls-496 (S) -I-5 II-5 11-26 Tls-497 (S) -I-5 II-5 11-32 Tls-498 (S) -I-5 II-5 11-33 Tls-499 (S) -I-5 II-5 11-37 Tls-500 (S) -I-5 II-5 11-39 Tls-501 (S) -I-5 II-5 11-42 Tls-502 (S) -I-5 II-5 11-44 Tls-503 (S) -I-5 II-5 11-50 Tls-504 (S) -I-5 II-5 11-53 Tls-505 (S) -I-5 II-5 11-60 Tls-506 (S) -I-5 II-5 11-62 Tls-507 (S) -I-5 II-5 11-66 Tls-508 (S) -I-5 II-5 11-69 Tls-509 (S) -I-5 II-5 11-70 Tls-510 (S) -I-5 II-5 11-71 Tls-511 (S) -I-5 II-5 11-72 Tls-512 (S) -I-5 II-5 11-74

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Tls-513 (S) -I-5 II-5 11-76 Tls-514 (5) -1-5 II-5 11-78 Tls-515 (S) -I-5 II-5 11-84 Tls-516 (S) -I-5 II-5 11-85 Tls-517 (S) -IS II-5 11-86 Tls-518 (S) -I-5 II-5 11-92 Tls-519 (8) -1-5 II-6 II-7 Tls-520 (S) -I-5 II-6 II-8 Tls-521 (8) -1-5 II-6 II-11 Tls-522 (S) -I-5 II-6 11-16 Tls-523 (S) -I-5 II-6 11-21 Tls-524 (8) -1-5 II-6 11-26 Tls-525 (S) -I-5 II-6 11-32 Tls-526 (S) -I-5 II-6 11-33 Tls-527 (S) -I-5 II-6 11-37 Tls-528 (S) -I-5 II-6 11-39 Tls-529 (8) -1-5 II-6 11-42 Tls-530 (S) -I-5 II-6 11-44 Tls-531 (S) -I-5 II-6 11-50 Tls-532 (8) -1-5 II-6 11-53 Tls-533 (S) -I-5 II-6 11-60 Tls-534 (S) -I-5 II-6 11-62 Tls-535 (8) -1-5 II-6 11-66 Tls-536 (S) -I-5 II-6 11-69 Tls-537 (S) -I-5 II-6 11-70 Tls-538 (S) -I-5 II-6 11-71 Tls-539 (S) -I-5 II-6 11-72 Tls-540 (8) -1-5 II-6 11-74 Tls-541 (S) -I-5 II-6 11-76 Tls-542 (S) -I-5 II-6 11-78 Tls-543 (8) -1-5 II-6 11-84 Tls-544 (S) -I-5 II-6 11-85 Tls-545 (8) -1-5 II-6 11-86 Tls-546 (S) -I-5 II-6 11-92 Tls-547 (8) -1-5 II-7 II-8 Tls-548 (S) -I-5 II-7 II-11 Tls-549 (S) -I-5 II-7 11-16 Tls-550 (8) -1-5 II-7 11-21 Tls-551 (S) -I-5 II-7 11-26 Tls-552 (S) -I-5 II-7 11-32 Tls-553 (S) -I-5 II-7 11-33 Tls-554 (S) -I-5 II-7 11-37 Tls-555 (S) -I-5 II-7 11-39 Tls-556 (S) -I-5 II-7 11-42 Tls-557 (S) -I-5 II-7 11-44 Tls-558 (8) -1-5 II-7 11-50

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Tls-559 (S) -I-5 II-7 11-53 Tls-560 (S) -I-5 II-7 11-60 Tls-561 (S) -I-5 II-7 11-62 Tls-562 (S) -I-5 II-7 11-66 Tls-563 (S) -I-5 II-7 11-69 Tls-564 (S) -I-5 II-7 11-70 Tls-565 (8) -1-5 II-7 11-71 Tls-566 (S) -I-5 II-7 11-72 Tls-567 (S) -I-5 II-7 11-74 Tls-568 (S) -I-5 II-7 11-76 Tls-569 (S) -I-5 II-7 11-78 Tls-570 (8) -1-5 II-7 11-84 Tls-571 (S) -I-5 II-7 11-85 Tls-572 (S) -I-5 II-7 11-86 Tls-573 (S) -I-5 II-7 11-92 Tls-574 (S) -I-5 II-8 II-11 Tls-575 (S) -I-5 II-8 11-16 Tls-576 (S) -I-5 II-8 11-21 Tls-577 (8) -1-5 II-8 11-26 Tls-578 (S) -I-5 II-8 11-32 Tls-579 (S) -I-5 II-8 11-33 Tls-580 (S) -I-5 II-8 11-37 Tls-581 (S) -I-5 II-8 11-39 Tls-582 (5) -1-5 II-8 11-42 Tls-583 (S) -I-5 II-8 11-44 Tls-584 (8) -1-5 II-8 11-50 Tls-585 (S) -I-5 II-8 11-53 Tls-586 (S) -I-5 II-8 11-60 Tls-587 (S) -I-5 II-8 11-62 Tls-588 (S) -I-5 II-8 11-66 Tls-589 (8) -1-5 II-8 11-69 Tls-590 (S) -I-5 II-8 11-70 Tls-591 (8) -1-5 II-8 11-71 Tls-592 (S) -I-5 II-8 11-72 Tls-593 (S) -I-5 II-8 11-74 Tls-594 (S) -I-5 II-8 11-76 Tls-595 (S) -I-5 II-8 11-78 Tls-596 (8) -1-5 II-8 11-84 Tls-597 (S) -I-5 II-8 11-85 Tls-598 (8) -1-5 II-8 11-86 Tls-599 (S) -I-5 II-8 11-92 Tls-600 (S) -I-5 II-11 11-16 Tls-601 (S) -I-5 II-11 11-21 Tls-602 (S) -I-5 II-11 11-26 Tls-603 (S) -I-5 II-11 11-32 Tls-604 (8) -1-5 II-11 11-33

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Tls-605 (S) -I-5 II-11 11-37 Tls-606 (S) -I-5 II-11 11-39 Tls-607 (S) -I-5 II-11 11-42 Tls-608 (S) -I-5 II-11 11-44 Tls-609 (S) -I-5 II-11 11-50 Tls-610 (S) -I-5 II-11 11-53 Tls-611 (S) -I-5 II-11 11-60 Tls-612 (S) -I-5 II-11 11-62 Tls-613 (S) -I-5 II-11 11-66 Tls-614 (S) -I-5 II-11 11-69 Tls-615 (S) -I-5 II-11 11-70 Tls-616 (S) -I-5 II-11 11-71 Tls-617 (S) -I-5 II-11 11-72 Tls-618 (S) -I-5 II-11 11-74 Tls-619 (S) -I-5 II-11 11-76 Tls-620 (S) -I-5 II-11 11-78 Tls-621 (S) -I-5 II-11 11-84 Tls-622 (S) -I-5 II-11 11-85 Tls-623 (S) -I-5 II-11 11-86 Tls-624 (S) -I-5 II-11 11-92 Tls-625 (S) -I-5 11-16 11-21 Tls-626 (S) -I-5 11-16 11-26 Tls-627 (S) -I-5 11-16 11-32 Tls-628 (S) -I-5 11-16 11-33 Tls-629 (S) -I-5 11-16 11-37 Tls-630 (S) -I-5 11-16 11-39 Tls-631 (S) -I-5 11-16 11-42 Tls-632 (S) -I-5 11-16 11-44 Tls-633 (S) -I-5 11-16 11-50 Tls-634 (S) -I-5 11-16 11-53 Tls-635 (S) -I-5 11-16 11-60 Tls-636 (S) -I-5 11-16 11-62 Tls-637 (S) -I-5 11-16 11-66 Tls-638 (S) -I-5 11-16 11-69 Tls-639 (S) -I-5 11-16 11-70 Tls-640 (S) -I-5 11-16 11-71 Tls-641 (S) -I-5 11-16 11-72 Tls-642 (8) -1-5 11-16 11-74 Tls-643 (S) -I-5 11-16 11-76 Tls-644 (8) -1-5 11-16 11-78 Tls-645 (S) -I-5 11-16 11-84 Tls-646 (S) -I-5 11-16 11-85 Tls-647 (S) -I-5 11-16 11-86 Tls-648 (S) -I-5 11-16 11-92 Tls-649 (S) -I-5 11-21 11-26 Tls-650 (S) -I-5 11-21 11-32

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Tls-651 (S) -I-5 11-21 11-33 Tls-652 (S) -I-5 11-21 11-37 Tls-653 (S) -I-5 11-21 11-39 Tls-654 (S) -I-5 11-21 11-42 Tls-655 (S) -I-5 11-21 11-44 Tls-656 (S) -I-5 11-21 11-50 Tls-657 (S) -I-5 11-21 11-53 Tls-658 (S) -I-5 11-21 11-60 Tls-659 (S) -I-5 11-21 11-62 Tls-660 (S) -I-5 11-21 11-66 Tls-661 (S) -I-5 11-21 11-69 Tls-662 (S) -I-5 11-21 11-70 Tls-663 (S) -I-5 11-21 11-71 Tls-664 (S) -I-5 11-21 11-72 Tls-665 (S) -I-5 11-21 11-74 Tls-666 (S) -I-5 11-21 11-76 Tls-667 (S) -I-5 11-21 11-78 Tls-668 (S) -I-5 11-21 11-84 Tls-669 (S) -I-5 11-21 11-85 Tls-670 (S) -I-5 11-21 11-86 Tls-671 (S) -I-5 11-21 11-92 Tls-672 (S) -I-5 11-26 11-32 Tls-673 (S) -I-5 11-26 11-33 Tls-674 (S) -I-5 11-26 11-37 Tls-675 (S) -I-5 11-26 11-39 Tls-676 (S) -I-5 11-26 11-42 Tls-677 (S) -I-5 11-26 11-44 Tls-678 (S) -I-5 11-26 11-50 Tls-679 (S) -I-5 11-26 11-53 Tls-680 (S) -I-5 11-26 11-60 Tls-681 (S) -I-5 11-26 11-62 Tls-682 (S) -I-5 11-26 11-66 Tls-683 (S) -I-5 11-26 11-69 Tls-684 (S) -I-5 11-26 11-70 Tls-685 (S) -I-5 11-26 11-71 Tls-686 (S) -I-5 11-26 11-72 Tls-687 (S) -I-5 11-26 11-74 Tls-688 (S) -I-5 11-26 11-76 Tls-689 (S) -I-5 11-26 11-78 Tls-690 (S) -I-5 11-26 11-84 Tls-691 (S) -I-5 11-26 11-85 Tls-692 (S) -I-5 11-26 11-86 Tls-693 (S) -I-5 11-26 11-92 Tls-694 (S) -I-5 11-32 11-33 Tls-695 (S) -I-5 11-32 11-37 Tls-696 (S) -I-5 11-32 11-39

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Tls-697 (S) -I-5 11-32 11-42 Tls-698 (S) -I-5 11-32 11-44 Tls-699 (S) -I-5 11-32 11-50 Tls-700 (S) -I-5 11-32 11-53 Tls-701 (S) -I-5 11-32 11-60 Tls-702 (S) -I-5 11-32 11-62 Tls-703 (S) -I-5 11-32 11-66 Tls-704 (S) -I-5 11-32 11-69 Tls-705 (S) -I-5 11-32 11-70 Tls-706 (S) -I-5 11-32 11-71 Tls-707 (S) -I-5 11-32 11-72 Tls-708 (S) -I-5 11-32 11-74 Tls-709 (S) -I-5 11-32 11-76 Tls-710 (S) -I-5 11-32 11-78 Tls-711 (S) -I-5 11-32 11-84 Tls-712 (S) -I-5 11-32 11-85 Tls-713 (S) -I-5 11-32 11-86 Tls-714 (S) -I-5 11-32 11-92 Tls-715 (8) -1-5 11-33 11-37 Tls-716 (S) -I-5 11-33 11-39 Tls-717 (S) -I-5 11-33 11-42 Tls-718 (S) -I-5 11-33 11-44 Tls-719 (S) -I-5 11-33 11-50 Tls-720 (S) -I-5 11-33 11-53 Tls-721 (S) -I-5 11-33 11-60 Tls-722 (8) -1-5 11-33 11-62 Tls-723 (S) -I-5 11-33 11-66 Tls-724 (8) -1-5 11-33 11-69 Tls-725 (S) -I-5 11-33 11-70 Tls-726 (S) -I-5 11-33 11-71 Tls-727 (S) -I-5 11-33 11-72 Tls-728 (S) -I-5 11-33 11-74 Tls-729 (S) -I-5 11-33 11-76 Tls-730 (S) -I-5 11-33 11-78 Tls-731 (S) -I-5 11-33 11-84 Tls-732 (S) -I-5 11-33 11-85 Tls-733 (S) -I-5 11-33 11-86 Tls-734 (S) -I-5 11-33 11-92 Tls-735 (S) -I-5 11-37 11-39 Tls-736 (S) -I-5 11-37 11-42 Tls-737 (S) -I-5 11-37 11-44 Tls-738 (S) -I-5 11-37 11-50 Tls-739 (S) -I-5 11-37 11-53 Tls-740 (S) -I-5 11-37 11-60 Tls-741 (S) -I-5 11-37 11-62 Tls-742 (S) -I-5 11-37 11-66

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Tls-743 (S) -I-5 11-37 11-69 Tls-744 (S) -I-5 11-37 11-70 Tls-745 (S) -I-5 11-37 11-71 Tls-746 (S) -I-5 11-37 11-72 Tls-747 (S) -I-5 11-37 11-74 Tls-748 (S) -I-5 11-37 11-76 Tls-749 (S) -I-5 11-37 11-78 Tls-750 (S) -I-5 11-37 11-84 Tls-751 (8) -1-5 11-37 11-85 Tls-752 (S) -I-5 11-37 11-86 Tls-753 (S) -I-5 11-37 11-92 Tls-754 (S) -I-5 11-39 11-42 Tls-755 (S) -I-5 11-39 11-44 Tls-756 (S) -I-5 11-39 11-50 Tls-757 (S) -I-5 11-39 11-53 Tls-758 (8) -1-5 11-39 11-60 Tls-759 (S) -I-5 11-39 11-62 Tls-760 (S) -I-5 11-39 11-66 Tls-761 (8) -1-5 11-39 11-69 Tls-762 (S) -I-5 11-39 11-70 Tls-763 (S) -I-5 11-39 11-71 Tls-764 (S) -I-5 11-39 11-72 Tls-765 (S) -I-5 11-39 11-74 Tls-766 (S) -I-5 11-39 11-76 Tls-767 (S) -I-5 11-39 11-78 Tls-768 (8) -1-5 11-39 11-84 Tls-769 (S) -I-5 11-39 11-85 Tls-770 (8) -1-5 11-39 11-86 Tls-771 (S) -I-5 11-39 11-92 Tls-772 (S) -I-5 11-42 11-44 Tls-773 (S) -I-5 11-42 11-50 Tls-774 (8) -1-5 11-42 11-53 Tls-775 (S) -I-5 11-42 11-60 Tls-776 (S) -I-5 11-42 11-62 Tls-777 (8) -1-5 11-42 11-66 Tls-778 (S) -I-5 11-42 11-69 Tls-779 (S) -I-5 11-42 11-70 Tls-780 (8) -1-5 11-42 11-71 Tls-781 (S) -I-5 11-42 11-72 Tls-782 (S) -I-5 11-42 11-74 Tls-783 (S) -I-5 11-42 11-76 Tls-784 (S) -I-5 11-42 11-78 Tls-785 (S) -I-5 11-42 11-84 Tls-786 (S) -I-5 11-42 11-85 Tls-787 (8) -1-5 11-42 11-86 Tls-788 (S) -I-5 11-42 11-92

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Tls-789 (S) -I-5 11-44 11-50 Tls-790 (S) -I-5 11-44 11-53 Tls-791 (S) -I-5 11-44 11-60 Tls-792 (S) -I-5 11-44 11-62 Tls-793 (S) -I-5 11-44 11-66 Tls-794 (S) -I-5 11-44 11-69 Tls-795 (S) -I-5 11-44 11-70 Tls-796 (S) -I-5 11-44 11-71 Tls-797 (S) -I-5 11-44 11-72 Tls-798 (S) -I-5 11-44 11-74 Tls-799 (S) -I-5 11-44 11-76 Tls-800 (S) -I-5 11-44 11-78 Tls-801 (S) -I-5 11-44 11-84 Tls-802 (S) -I-5 11-44 11-85 Tls-803 (S) -I-5 11-44 11-86 Tls-804 (S) -I-5 11-44 11-92 Tls-805 (S) -I-5 11-50 11-53 Tls-806 (S) -I-5 11-50 11-60 Tls-807 (S) -I-5 11-50 11-62 Tls-808 (S) -I-5 11-50 11-66 Tls-809 (S) -I-5 11-50 11-69 Tls-810 (S) -I-5 11-50 11-70 Tls-811 (S) -I-5 11-50 11-71 Tls-812 (S) -I-5 11-50 11-72 Tls-813 (S) -I-5 11-50 11-74 Tls-814 (S) -I-5 11-50 11-76 Tls-815 (S) -I-5 11-50 11-78 Tls-816 (S) -I-5 11-50 11-84 Tls-817 (S) -I-5 11-50 11-85 Tls-818 (S) -I-5 11-50 11-86 Tls-819 (S) -I-5 11-50 11-92 Tls-820 (S) -I-5 11-53 11-60 Tls-821 (S) -I-5 11-53 11-62 Tls-822 (S) -I-5 11-53 11-66 Tls-823 (S) -I-5 11-53 11-69 Tls-824 (S) -I-5 11-53 11-70 Tls-825 (S) -I-5 11-53 11-71 Tls-826 (S) -I-5 11-53 11-72 Tls-827 (S) -I-5 11-53 11-74 Tls-828 (S) -I-5 11-53 11-76 Tls-829 (S) -I-5 11-53 11-78 Tls-830 (S) -I-5 11-53 11-84 Tls-831 (S) -I-5 11-53 11-85 Tls-832 (S) -I-5 11-53 11-86 Tls-833 (S) -I-5 11-53 11-92 Tls-834 (S) -I-5 11-60 11-62

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Tls-835 (S) -I-5 11-60 11-66 Tls-836 (S) -I-5 11-60 11-69 Tls-837 (S) -I-5 11-60 11-70 Tls-838 (S) -I-5 11-60 11-71 Tls-839 (SH-5 11-60 11-72 Tls-840 (S) -I-5 11-60 11-74 Tls-841 (S) -I-5 11-60 11-76 Tls-842 (S) -I-5 11-60 11-78 Tls-843 (S) -I-5 11-60 11-84 Tls-844 (S) -I-5 11-60 11-85 Tls-845 (S) -I-5 11-60 11-86 Tls-846 (S) -I-5 11-60 11-92 Tls-847 (S) -I-5 11-62 11-66 Tls-848 (5) -1-5 11-62 11-69 Tls-849 (S) -I-5 11-62 11-70 Tls-850 (S) -I-5 11-62 11-71 Tls-851 (S) -I-5 11-62 11-72 Tls-852 (S) -I-5 11-62 11-74 Tls-853 (S) -I-5 11-62 11-76 Tls-854 (S) -I-5 11-62 11-78 Tls-855 (S) -I-5 11-62 11-84 Tls-856 (S) -I-5 11-62 11-85 Tls-857 (S) -I-5 11-62 11-86 Tls-858 (S) -I-5 11-62 11-92 Tls-859 (S) -I-5 11-66 11-69 Tls-860 (S) -I-5 11-66 11-70 Tls-861 (S) -I-5 11-66 11-71 Tls-862 (S) -I-5 11-66 11-72 Tls-863 (S) -I-5 11-66 11-74 Tls-864 (S) -I-5 11-66 11-76 Tls-865 (S) -I-5 11-66 11-78 Tls-866 (S) -I-5 11-66 11-84 Tls-867 (S) -I-5 11-66 11-85 Tls-868 (S) -I-5 11-66 11-86 Tls-869 (S) -I-5 11-66 11-92 Tls-870 (S) -I-5 11-69 11-70 Tls-871 (S) -I-5 11-69 11-71 Tls-872 (S) -I-5 11-69 11-72 Tls-873 (S) -I-5 11-69 11-74 Tls-874 (S) -I-5 11-69 11-76 Tls-875 (S) -I-5 11-69 11-78 Tls-876 (S) -I-5 11-69 11-84 Tls-877 (S) -I-5 11-69 11-85 Tls-878 (S) -I-5 11-69 11-86 Tls-879 (S) -I-5 11-69 11-92 Tls-880 (S) -I-5 11-70 11-71

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Tls-881 (S) -I-5 11-70 11-72 Tls-882 (S) -I-5 11-70 11-74 Tls-883 (S) -I-5 11-70 11-76 Tls-884 (S) -I-5 11-70 11-78 Tls-885 (S) -I-5 11-70 11-84 Tls-886 (S) -I-5 11-70 11-85 Tls-887 (S) -I-5 11-70 11-86 Tls-888 (S) -I-5 11-70 11-92 Tls-889 (S) -I-5 11-71 11-72 Tls-890 (S) -I-5 11-71 11-74 Tls-891 (S) -I-5 11-71 11-76 Tls-892 (S) -I-5 11-71 11-78 Tls-893 (S) -I-5 11-71 11-84 Tls-894 (S) -I-5 11-71 11-85 Tls-895 (S) -I-5 11-71 11-86 Tls-896 (S) -I-5 11-71 11-92 Tls-897 (S) -I-5 11-72 11-74 Tls-898 (S) -I-5 11-74 11-76 Tls-899 (S) -I-5 11-74 11-78 Tls-900 (S) -I-5 11-74 11-84 Tls-901 (S) -I-5 11-74 11-85 Tls-902 (S) -I-5 11-74 11-86 Tls-903 (S) -I-5 11-74 11-92 Tls-904 (S) -I-5 11-76 11-78 Tls-905 (S) -I-5 11-76 11-84 Tls-906 (S) -I-5 11-76 11-85 Tls-907 (S) -I-5 11-76 11-86 Tls-908 (S) -I-5 11-76 11-92 Tls-909 (S) -I-5 11-78 11-84 Tls-910 (S) -I-5 11-78 11-85 Tls-911 (S) -I-5 11-78 11-86 Tls-912 (S) -I-5 11-78 11-92 Tls-913 (S) -I-5 11-84 11-85 Tls-914 (S) -I-5 11-84 11-86 Tls-915 (S) -I-5 11-84 11-92 Tls-916 (S) -I-5 11-85 11-86 Tls-917 (S) -I-5 11-85 11-92 Tls-918 (S) -I-5 11-86 11-92 Tls-919 (S) -I-3 II-3 II-5 Tls-920 (8) -1-3 II-3 II-6 Tls-921 (S) -I-3 II-3 II-7 Tls-922 (S) -I-3 II-3 II-8 Tls-923 (8) -1-3 II-3 II-11 Tls-924 (S) -I-3 II-3 11-16 Tls-925 (S) -I-3 II-3 11-21 Tls-926 (8) -1-3 II-3 11-26

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Tls-927 (S) -I-3 II-3 11-32 Tls-928 (S) -I-3 II-3 11-33 Tls-929 (S) -I-3 II-3 11-37 Tls-930 (S) -i-3 II-3 11-39 Tls-931 (S) -I-3 II-3 11-42 Tls-932 (S) -I-3 II-3 11-44 Tls-933 (S) -i-3 II-3 11-50 Tls-934 (S) -I-3 II-3 11-53 Tls-935 (S) -I-3 II-3 11-60 Tls-936 (S) -I-3 II-3 11-62 Tls-937 (S) -I-3 II-3 11-66 Tls-938 (S) -i-3 II-3 11-69 Tls-939 (S) -I-3 II-3 11-70 Tls-940 (S) -i-3 II-3 11-71 Tls-941 (S) -I-3 II-3 11-72 Tls-942 (S) -I-3 II-3 11-74 Tls-943 (S) -I-3 II-3 11-76 Tls-944 (S) -I-3 II-3 11-78 Tls-945 (S) -i-3 II-3 11-84 Tls-946 (S) -I-3 II-3 11-85 Tls-947 (S) -I-3 II-3 11-86 Tls-948 (S) -I-3 II-3 11-92 Tls-949 (S) -I-3 II-5 II-6 Tls-950 (S) -I-3 II-5 II-7 Tls-951 (S) -I-3 II-5 II-8 Tls-952 (S) -i-3 II-5 II-11 Tls-953 (S) -I-3 II-5 11-16 Tls-954 (S) -I-3 II-5 11-21 Tls-955 (S) -I-3 II-5 11-26 Tls-956 (S) -I-3 II-5 11-32 Tls-957 (S) -i-3 II-5 11-33 Tls-958 (S) -I-3 II-5 11-37 Tls-959 (S) -i-3 II-5 11-39 Tls-960 (S) -I-3 II-5 11-42 Tls-961 (S) -I-3 II-5 11-44 Tls-962 (S) -I-3 II-5 11-50 Tls-963 (S) -I-3 II-5 11-53 Tls-964 (S) -i-3 II-5 11-60 Tls-965 (S) -I-3 II-5 11-62 Tls-966 (S) -I-3 II-5 11-66 Tls-967 (S) -i-3 II-5 11-69 Tls-968 (S) -I-3 II-5 11-70 Tls-969 (S) -I-3 II-5 11-71 Tls-970 (S) -I-3 II-5 11-72 Tls-971 (S) -I-3 II-5 11-74 Tls-972 (S) -i-3 II-5 11-76

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Tls-973 (S) -I-3 II-5 11-78 Tls-974 (S) -I-3 II-5 11-84 Tls-975 (S) -I-3 II-5 11-85 Tls-976 (S) -I-3 II-5 11-86 Tls-977 (S) -I-3 II-5 11-92 Tls-978 (S) -I-3 II-6 II-7 Tls-979 (S) -I-3 II-6 II-8 Tls-980 (S) -I-3 II-6 II-11 Tls-981 (S) -I-3 II-6 11-16 Tls-982 (S) -I-3 II-6 11-21 Tls-983 (S) -I-3 II-6 11-26 Tls-984 (S) -I-3 II-6 11-32 Tls-985 (S) -I-3 II-6 11-33 Tls-986 (S) -I-3 II-6 11-37 Tls-987 (S) -I-3 II-6 11-39 Tls-988 (S) -I-3 II-6 11-42 Tls-989 (S) -I-3 II-6 11-44 Tls-990 (S) -I-3 II-6 11-50 Tls-991 (S) -I-3 II-6 11-53 Tls-992 (S) -I-3 II-6 11-60 Tls-993 (S) -I-3 II-6 11-62 Tls-994 (S) -I-3 II-6 11-66 Tls-995 (S) -I-3 II-6 11-69 Tls-996 (S) -I-3 II-6 11-70 Tls-997 (S) -I-3 II-6 11-71 Tls-998 (S) -I-3 II-6 11-72 Tls-999 (S) -I-3 II-6 11-74 Tls-1000 (S) -I-3 II-6 11-76 Tls-1001 (S) -I-3 II-6 11-78 Tls-1002 (S) -I-3 II-6 11-84 Tls-1003 (S) -I-3 II-6 11-85 Tls-1004 (S) -I-3 II-6 11-86 Tls-1005 (S) -I-3 II-6 11-92 Tls-1006 (S) -I-3 II-7 II-8 Tls-1007 (S) -I-3 II-7 II-11 Tls-1008 (S) -I-3 II-7 11-16 Tls-1009 (S) -I-3 II-7 11-21 Tls-1010 (S) -I-3 II-7 11-26 Tls-1011 (S) -I-3 II-7 11-32 Tls-1012 (S) -I-3 II-7 11-33 Tls-1013 (S) -I-3 II-7 11-37 Tls-1014 (S) -I-3 II-7 11-39 Tls-1015 (S) -I-3 II-7 11-42 Tls-1016 (S) -I-3 II-7 11-44 Tls-1017 (S) -I-3 II-7 11-50 Tls-1018 (S) -I-3 II-7 11-53

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Tls-1019 (S) -I-3 II-7 11-60 Tls-1020 (S) -I-3 II-7 11-62 Tls-1021 (S) -I-3 II-7 11-66 Tls-1022 (S) -I-3 II-7 11-69 Tls-1023 (S) -I-3 II-7 11-70 Tls-1024 (S) -I-3 II-7 11-71 Tls-1025 (S) -I-3 II-7 11-72 Tls-1026 (S) -I-3 II-7 11-74 Tls-1027 (S) -I-3 II-7 11-76 Tls-1028 (S) -I-3 II-7 11-78 Tls-1029 (S) -I-3 II-7 11-84 Tls-1030 (8) -1-3 II-7 11-85 Tls-1031 (S) -I-3 II-7 11-86 Tls-1032 (S) -I-3 II-7 11-92 Tls-1033 (S) -I-3 II-8 II-11 Tls-1034 (8) -1-3 II-8 11-16 Tls-1035 (S) -I-3 II-8 11-21 Tls-1036 (S) -I-3 II-8 11-26 Tls-1037 (S) -I-3 II-8 11-32 Tls-1038 (S) -I-3 II-8 11-33 Tls-1039 (8) -1-3 II-8 11-37 Tls-1040 (S) -I-3 II-8 11-39 Tls-1041 (S) -I-3 II-8 11-42 Tls-1042 (S) -I-3 II-8 11-44 Tls-1043 (S) -I-3 II-8 11-50 Tls-1044 (8) -1-3 II-8 11-53 Tls-1045 (S) -I-3 II-8 11-60 Tls-1046 (S) -I-3 II-8 11-62 Tls-1047 (S) -I-3 II-8 11-66 Tls-1048 (S) -I-3 II-8 11-69 Tls-1049 (8) -1-3 II-8 11-70 Tls-1050 (S) -I-3 II-8 11-71 Tls-1051 (S) -I-3 II-8 11-72 Tls-1052 (S) -I-3 II-8 11-74 Tls-1053 (8) -1-3 II-8 11-76 Tls-1054 (S) -I-3 II-8 11-78 Tls-1055 (S) -I-3 II-8 11-84 Tls-1056 (S) -I-3 II-8 11-85 Tls-1057 (S) -I-3 II-8 11-86 Tls-1058 (8) -1-3 II-8 11-92 Tls-1059 (S) -I-3 II-11 11-16 Tls-1060 (S) -I-3 II-11 11-21 Tls-1061 (S) -I-3 II-11 11-26 Tls-1062 (S) -I-3 II-11 11-32 Tls-1063 (S) -I-3 II-11 11-33 Tls-1064 (S) -I-3 II-11 11-37

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Tls-1065 (S) -I-3 II-11 11-39 Tls-1066 (S) -i-3 II-11 11-42 Tls-1067 (S) -I-3 II-11 11-44 Tls-1068 (S) -I-3 II-11 11-50 Tls-1069 (8) -1-3 II-11 11-53 Tls-1070 (S) -I-3 II-11 11-60 Tls-1071 (S) -I-3 II-11 11-62 Tls-1072 (S) -I-3 II-11 11-66 Tls-1073 (S) -I-3 II-11 11-69 Tls-1074 (S) -I-3 II-11 11-70 Tls-1075 (S) -I-3 II-11 11-71 Tls-1076 (5) -1-3 II-11 11-72 Tls-1077 (S) -I-3 II-11 11-74 Tls-1078 (5) -1-3 II-11 11-76 Tls-1079 (S) -I-3 II-11 11-78 Tls-1080 (5) -1-3 II-11 11-84 Tls-1081 (S) -I-3 II-11 11-85 Tls-1082 (S) -I-3 II-11 11-86 Tls-1083 (S) -I-3 II-11 11-92 Tls-1084 (S) -I-3 11-16 11-21 Tls-1085 (S) -I-3 11-16 11-26 Tls-1086 (S) -I-3 11-16 11-32 Tls-1087 (S) -I-3 11-16 11-33 Tls-1088 (S) -I-3 11-16 11-37 Tls-1089 (S) -I-3 11-16 11-39 Tls-1090 (S) -I-3 11-16 11-42 Tls-1091 (S) -I-3 11-16 11-44 Tls-1092 (S) -I-3 11-16 11-50 Tls-1093 (S) -I-3 11-16 11-53 Tls-1094 (S) -I-3 11-16 11-60 Tls-1095 (S) -I-3 11-16 11-62 Tls-1096 (S) -I-3 11-16 11-66 Tls-1097 (S) -I-3 11-16 11-69 Tls-1098 (S) -I-3 11-16 11-70 Tls-1099 (S) -I-3 11-16 11-71 Tls-1100 (S) -I-3 11-16 11-72 Tls-1101 (S) -I-3 11-16 11-74 Tls-1102 (S) -I-3 11-16 11-76 Tls-1103 (S) -I-3 11-16 11-78 Tls-1104 (S) -I-3 11-16 11-84 Tls-1105 (S) -I-3 11-16 11-85 Tls-1106 (S) -I-3 11-16 11-86 Tls-1107 (S) -I-3 11-16 11-92 Tls-1108 (S) -I-3 11-21 11-26 Tls-1109 (S) -I-3 11-21 11-32 Tls-1110 (5) -1-3 11-21 11-33

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Tls-1111 (S) -I-3 11-21 11-37 Tls-1112 (S) -I-3 11-21 11-39 Tls-1113 (S) -I-3 11-21 11-42 Tls-1114 (S) -I-3 11-21 11-44 Tls-1115 (S) -i-3 11-21 11-50 Tls-1116 (S) -I-3 11-21 11-53 Tls-1117 (S) -I-3 11-21 11-60 Tls-1118 (S) -I-3 11-21 11-62 Tls-1119 (8) -1-3 11-21 11-66 Tls-1120 (S) -I-3 11-21 11-69 Tls-1121 (S) -I-3 11-21 11-70 Tls-1122 (S) -i-3 11-21 11-71 Tls-1123 (S) -I-3 11-21 11-72 Tls-1124 (S) -I-3 11-21 11-74 Tls-1125 (S) -I-3 11-21 11-76 Tls-1126 (S) -i-3 11-21 11-78 Tls-1127 (S) -I-3 11-21 11-84 Tls-1128 (S) -I-3 11-21 11-85 Tls-1129 (S) -i-3 11-21 11-86 Tls-1130 (S) -I-3 11-21 11-92 Tls-1131 (S) -I-3 11-26 11-32 Tls-1132 (S) -I-3 11-26 11-33 Tls-1133 (S) -I-3 11-26 11-37 Tls-1134 (8) -1-3 11-26 11-39 Tls-1135 (S) -I-3 11-26 11-42 Tls-1136 (S) -i-3 11-26 11-44 Tls-1137 (S) -I-3 11-26 11-50 Tls-1138 (S) -I-3 11-26 11-53 Tls-1139 (S) -I-3 11-26 11-60 Tls-1140 (S) -I-3 11-26 11-62 Tls-1141 (8) -1-3 11-26 11-66 Tls-1142 (S) -I-3 11-26 11-69 Tls-1143 (S) -i-3 11-26 11-70 Tls-1144 (S) -I-3 11-26 11-71 Tls-1145 (S) -I-3 11-26 11-72 Tls-1146 (S) -I-3 11-26 11-74 Tls-1147 (S) -I-3 11-26 11-76 Tls-1148 (8) -1-3 11-26 11-78 Tls-1149 (S) -I-3 11-26 11-84 Tls-1150 (S) -i-3 11-26 11-85 Tls-1151 (S) -I-3 11-26 11-86 Tls-1152 (S) -I-3 11-26 11-92 Tls-1153 (S) -I-3 11-32 11-33 Tls-1154 (S) -I-3 11-32 11-37 Tls-1155 (S) -I-3 11-32 11-39 Tls-1156 (S) -I-3 11-32 11-42

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Tls-1157 (S) -I-3 11-32 11-44 Tls-1158 (S) -I-3 11-32 11-50 Tls-1159 (S) -I-3 11-32 11-53 Tls-1160 (S) -I-3 11-32 11-60 Tls-1161 (S) -I-3 11-32 11-62 Tls-1162 (S) -i-3 11-32 11-66 Tls-1163 (S) -I-3 11-32 11-69 Tls-1164 (S) -I-3 11-32 11-70 Tls-1165 (S) -I-3 11-32 11-71 Tls-1166 (S) -I-3 11-32 11-72 Tls-1167 (S) -I-3 11-32 11-74 Tls-1168 (S) -I-3 11-32 11-76 Tls-1169 (S) -I-3 11-32 11-78 Tls-1170 (S) -I-3 11-32 11-84 Tls-1171 (S) -I-3 11-32 11-85 Tls-1172 (S) -I-3 11-32 11-86 Tls-1173 (S) -I-3 11-32 11-92 Tls-1174 (S) -i-3 11-33 11-37 Tls-1175 (S) -I-3 11-33 11-39 Tls-1176 (S) -I-3 11-33 11-42 Tls-1177 (S) -I-3 11-33 11-44 Tls-1178 (S) -I-3 11-33 11-50 Tls-1179 (S) -I-3 11-33 11-53 Tls-1180 (S) -I-3 11-33 11-60 Tls-1181 (S) -I-3 11-33 11-62 Tls-1182 (S) -I-3 11-33 11-66 Tls-1183 (S) -I-3 11-33 11-69 Tls-1184 (S) -I-3 11-33 11-70 Tls-1185 (S) -I-3 11-33 11-71 Tls-1186 (S) -I-3 11-33 11-72 Tls-1187 (S) -I-3 11-33 11-74 Tls-1188 (S) -I-3 11-33 11-76 Tls-1189 (S) -I-3 11-33 11-78 Tls-1190 (S) -I-3 11-33 11-84 Tls-1191 (S) -I-3 11-33 11-85 Tls-1192 (S) -I-3 11-33 11-86 Tls-1193 (S) -I-3 11-33 11-92 Tls-1194 (S) -I-3 11-37 11-39 Tls-1195 (S) -I-3 11-37 11-42 Tls-1196 (S) -I-3 11-37 11-44 Tls-1197 (S) -I-3 11-37 11-50 Tls-1198 (S) -I-3 11-37 11-53 Tls-1199 (S) -I-3 11-37 11-60 Tls-1200 (S) -I-3 11-37 11-62 Tls-1201 (S) -I-3 11-37 11-66 Tls-1202 (S) -I-3 11-37 11-69

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Tls-1203 (S) -I-3 11-37 11-70 Tls-1204 (S) -I-3 11-37 11-71 Tls-1205 (S) -I-3 11-37 11-72 Tls-1206 (S) -I-3 11-37 11-74 Tls-1207 (S) -I-3 11-37 11-76 Tls-1208 (S) -I-3 11-37 11-78 Tls-1209 (S) -I-3 11-37 11-84 Tls-1210 (S) -I-3 11-37 11-85 Tls-1211 (S) -I-3 11-37 11-86 Tls-1212 (S) -I-3 11-37 11-92 Tls-1213 (S) -I-3 11-39 11-42 Tls-1214 (8) -1-3 11-39 11-44 Tls-1215 (S) -I-3 11-39 11-50 Tls-1216 (S) -I-3 11-39 11-53 Tls-1217 (S) -I-3 11-39 11-60 Tls-1218 (S) -I-3 11-39 11-62 Tls-1219 (S) -I-3 11-39 11-66 Tls-1220 (S) -I-3 11-39 11-69 Tls-1221 (S) -I-3 11-39 11-70 Tls-1222 (S) -I-3 11-39 11-71 Tls-1223 (S) -I-3 11-39 11-72 Tls-1224 (S) -I-3 11-39 11-74 Tls-1225 (S) -I-3 11-39 11-76 Tls-1226 (S) -I-3 11-39 11-78 Tls-1227 (S) -I-3 11-39 11-84 Tls-1228 (S) -I-3 11-39 11-85 Tls-1229 (S) -I-3 11-39 11-86 Tls-1230 (S) -I-3 11-39 11-92 Tls-1231 (S) -I-3 11-42 11-44 Tls-1232 (S) -I-3 11-42 11-50 Tls-1233 (S) -I-3 11-42 11-53 Tls-1234 (S) -I-3 11-42 11-60 Tls-1235 (S) -I-3 11-42 11-62 Tls-1236 (S) -I-3 11-42 11-66 Tls-1237 (S) -I-3 11-42 11-69 Tls-1238 (S) -I-3 11-42 11-70 Tls-1239 (S) -I-3 11-42 11-71 Tls-1240 (S) -I-3 11-42 11-72 Tls-1241 (S) -I-3 11-42 11-74 Tls-1242 (S) -I-3 11-42 11-76 Tls-1243 (S) -I-3 11-42 11-78 Tls-1244 (S) -I-3 11-42 11-84 Tls-1245 (S) -I-3 11-42 11-85 Tls-1246 (S) -I-3 11-42 11-86 Tls-1247 (S) -I-3 11-42 11-92 Tls-1248 (S) -I-3 11-44 11-50

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Tls-1249 (S) -I-3 11-44 11-53 Tls-1250 (S) -I-3 11-44 11-60 Tls-1251 (S) -I-3 11-44 11-62 Tls-1252 (S) -I-3 11-44 11-66 Tls-1253 (S) -I-3 11-44 11-69 Tls-1254 (S) -I-3 11-44 11-70 Tls-1255 (S) -I-3 11-44 11-71 Tls-1256 (S) -I-3 11-44 11-72 Tls-1257 (S) -I-3 11-44 11-74 Tls-1258 (S) -I-3 11-44 11-76 Tls-1259 (S) -I-3 11-44 11-78 Tls-1260 (S) -I-3 11-44 11-84 Tls-1261 (S) -I-3 11-44 11-85 Tls-1262 (S) -I-3 11-44 11-86 Tls-1263 (S) -I-3 11-44 11-92 Tls-1264 (S) -I-3 11-50 11-53 Tls-1265 (S) -I-3 11-50 11-60 Tls-1266 (S) -I-3 11-50 11-62 Tls-1267 (S) -I-3 11-50 11-66 Tls-1268 (S) -I-3 11-50 11-69 Tls-1269 (S) -I-3 11-50 11-70 Tls-1270 (S) -I-3 11-50 11-71 Tls-1271 (S) -I-3 11-50 11-72 Tls-1272 (S) -I-3 11-50 11-74 Tls-1273 (S) -I-3 11-50 11-76 Tls-1274 (S) -I-3 11-50 11-78 Tls-1275 (S) -I-3 11-50 11-84 Tls-1276 (S) -I-3 11-50 11-85 Tls-1277 (S) -I-3 11-50 11-86 Tls-1278 (S) -I-3 11-50 11-92 Tls-1279 (S) -I-3 11-53 11-60 Tls-1280 (S) -I-3 11-53 11-62 Tls-1281 (S) -I-3 11-53 11-66 Tls-1282 (S) -I-3 11-53 11-69 Tls-1283 (S) -I-3 11-53 11-70 Tls-1284 (S) -I-3 11-53 11-71 Tls-1285 (S) -I-3 11-53 11-72 Tls-1286 (S) -I-3 11-53 11-74 Tls-1287 (S) -I-3 11-53 11-76 Tls-1288 (S) -I-3 11-53 11-78 Tls-1289 (S) -I-3 11-53 11-84 Tls-1290 (S) -I-3 11-53 11-85 Tls-1291 (S) -I-3 11-53 11-86 Tls-1292 (S) -I-3 11-53 11-92 Tls-1293 (S) -I-3 11-60 11-62 Tls-1294 (S) -I-3 11-60 11-66

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Tls-1295 (S) -I-3 11-60 11-69 Tls-1296 (S) -I-3 11-60 11-70 Tls-1297 (S) -I-3 11-60 11-71 Tls-1298 (S) -I-3 11-60 11-72 Tls-1299 (S) -I-3 11-60 11-74 Tls-1300 (S) -I-3 11-60 11-76 Tls-1301 (S) -I-3 11-60 11-78 Tls-1302 (S) -I-3 11-60 11-84 Tls-1303 (S) -I-3 11-60 11-85 Tls-1304 (S) -I-3 11-60 11-86 Tls-1305 (S) -I-3 11-60 11-92 Tls-1306 (S) -I-3 11-62 11-66 Tls-1307 (S) -I-3 11-62 11-69 Tls-1308 (S) -I-3 11-62 11-70 Tls-1309 (S) -I-3 11-62 11-71 Tls-1310 (S) -I-3 11-62 11-72 Tls-1311 (S) -I-3 11-62 11-74 Tls-1312 (S) -I-3 11-62 11-76 Tls-1313 (S) -I-3 11-62 11-78 Tls-1314 (S) -I-3 11-62 11-84 Tls-1315 (S) -I-3 11-62 11-85 Tls-1316 (S) -I-3 11-62 11-86 Tls-1317 (S) -I-3 11-62 11-92 Tls-1318 (S) -I-3 11-66 11-69 Tls-1319 (S) -I-3 11-66 11-70 Tls-1320 (S) -I-3 11-66 11-71 Tls-1321 (S) -I-3 11-66 11-72 Tls-1322 (S) -I-3 11-66 11-74 Tls-1323 (S) -I-3 11-66 11-76 Tls-1324 (S) -I-3 11-66 11-78 Tls-1325 (S) -I-3 11-66 11-84 Tls-1326 (S) -I-3 11-66 11-85 Tls-1327 (S) -I-3 11-66 11-86 Tls-1328 (S) -I-3 11-66 11-92 Tls-1329 (S) -I-3 11-69 11-70 Tls-1330 (S) -I-3 11-69 11-71 Tls-1331 (S) -I-3 11-69 11-72 Tls-1332 (S) -I-3 11-69 11-74 Tls-1333 (S) -I-3 11-69 11-76 Tls-1334 (S) -I-3 11-69 11-78 Tls-1335 (S) -I-3 11-69 11-84 Tls-1336 (S) -I-3 11-69 11-85 Tls-1337 (S) -I-3 11-69 11-86 Tls-1338 (S) -I-3 11-69 11-92 Tls-1339 (S) -I-3 11-70 11-71 Tls-1340 (S) -I-3 11-70 11-72

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Tls-1341 (S) -I-3 11-70 11-74 Tls-1342 (S) -I-3 11-70 11-76 Tls-1343 (S) -I-3 11-70 11-78 Tls-1344 (S) -I-3 11-70 11-84 Tls-1345 (S) -I-3 11-70 11-85 Tls-1346 (S) -I-3 11-70 11-86 Tls-1347 (S) -I-3 11-70 11-92 Tls-1348 (S) -I-3 11-71 11-72 Tls-1349 (S) -I-3 11-71 11-74 Tls-1350 (S) -I-3 11-71 11-76 Tls-1351 (S) -I-3 11-71 11-78 Tls-1352 (S) -I-3 11-71 11-84 Tls-1353 (S) -I-3 11-71 11-85 Tls-1354 (S) -I-3 11-71 11-86 Tls-1355 (S) -I-3 11-71 11-92 Tls-1356 (S) -I-3 11-72 11-74 Tls-1357 (S) -I-3 11-74 11-76 Tls-1358 (S) -I-3 11-74 11-78 Tls-1359 (S) -I-3 11-74 11-84 Tls-1360 (S) -I-3 11-74 11-85 Tls-1361 (S) -I-3 11-74 11-86 Tls-1362 (S) -I-3 11-74 11-92 Tls-1363 (S) -I-3 11-76 11-78 Tls-1364 (S) -I-3 11-76 11-84 Tls-1365 (S) -I-3 11-76 11-85 Tls-1366 (S) -I-3 11-76 11-86 Tls-1367 (S) -I-3 11-76 11-92 Tls-1368 (S) -I-3 11-78 11-84 Tls-1369 (S) -I-3 11-78 11-85 Tls-1370 (S) -I-3 11-78 11-86 Tls-1371 (S) -I-3 11-78 11-92 Tls-1372 (S) -I-3 11-84 11-85 Tls-1373 (S) -I-3 11-84 11-86 Tls-1374 (S) -I-3 11-84 11-92 Tls-1375 (S) -I-3 11-85 11-86 Tls-1376 (S) -I-3 11-85 11-92 Tls-1377 (S) -I-3 11-86 11-92 Tls-1378 (S) -I-4 II-3 II-5 Tls-1379 (S) -I-4 II-3 II-6 Tls-1380 (S) -I-4 II-3 II-7 Tls-1381 (S) -I-4 II-3 II-8 Tls-1382 (S) -I-4 II-3 II-11 Tls-1383 (S) -I-4 II-3 11-16 Tls-1384 (S) -I-4 II-3 11-21 Tls-1385 (S) -I-4 II-3 11-26 Tls-1386 (S) -I-4 II-3 11-32

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Tls-1387 (S) -I-4 II-3 11-33 Tls-1388 (S) -I-4 II-3 11-37 Tls-1389 (S) -I-4 II-3 11-39 Tls-1390 (S) -I-4 II-3 11-42 Tls-1391 (S) -I-4 II-3 11-44 Tls-1392 (S) -I-4 II-3 11-50 Tls-1393 (S) -I-4 II-3 11-53 Tls-1394 (S) -I-4 II-3 11-60 Tls-1395 (S) -I-4 II-3 11-62 Tls-1396 (S) -I-4 II-3 11-66 Tls-1397 (S) -I-4 II-3 11-69 Tls-1398 (S) -I-4 II-3 11-70 Tls-1399 (S) -I-4 II-3 11-71 Tls-1400 (S) -I-4 II-3 11-72 Tls-1401 (S) -I-4 II-3 11-74 Tls-1402 (S) -I-4 II-3 11-76 Tls-1403 (S) -I-4 II-3 11-78 Tls-1404 (S) -I-4 II-3 11-84 Tls-1405 (S) -I-4 II-3 11-85 Tls-1406 (S) -I-4 II-3 11-86 Tls-1407 (S) -I-4 II-3 11-92 Tls-1408 (S) -I-4 II-5 II-6 Tls-1409 (S) -I-4 II-5 II-7 Tls-1410 (S) -I-4 II-5 II-8 Tls-1411 (S) -I-4 II-5 II-11 Tls-1412 (S) -I-4 II-5 11-16 Tls-1413 (S) -I-4 II-5 11-21 Tls-1414 (S) -I-4 II-5 11-26 Tls-1415 (S) -I-4 II-5 11-32 Tls-1416 (S) -I-4 II-5 11-33 Tls-1417 (S) -I-4 II-5 11-37 Tls-1418 (S) -I-4 II-5 11-39 Tls-1419 (S) -I-4 II-5 11-42 Tls-1420 (S) -I-4 II-5 11-44 Tls-1421 (S) -I-4 II-5 11-50 Tls-1422 (S) -I-4 II-5 11-53 Tls-1423 (S) -I-4 II-5 11-60 Tls-1424 (S) -I-4 II-5 11-62 Tls-1425 (S) -I-4 II-5 11-66 Tls-1426 (S) -I-4 II-5 11-69 Tls-1427 (S) -I-4 II-5 11-70 Tls-1428 (S) -I-4 II-5 11-71 Tls-1429 (S) -I-4 II-5 11-72 Tls-1430 (S) -I-4 II-5 11-74 Tls-1431 (S) -I-4 II-5 11-76 Tls-1432 (S) -I-4 II-5 11-78

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Tls-1433 (S) -I-4 II-5 11-84 Tls-1434 (S) -I-4 II-5 11-85 Tls-1435 (S) -I-4 II-5 11-86 Tls-1436 (S) -I-4 II-5 11-92 Tls-1437 (S) -I-4 II-6 II-7 Tls-1438 (S) -I-4 II-6 II-8 Tls-1439 (S) -I-4 II-6 II-11 Tls-1440 (S) -I-4 II-6 11-16 Tls-1441 (S) -I-4 II-6 11-21 Tls-1442 (S) -I-4 II-6 11-26 Tls-1443 (S) -I-4 II-6 11-32 Tls-1444 (S) -I-4 II-6 11-33 Tls-1445 (S) -I-4 II-6 11-37 Tls-1446 (S) -I-4 II-6 11-39 Tls-1447 (S) -I-4 II-6 11-42 Tls-1448 (S) -I-4 II-6 11-44 Tls-1449 (S) -I-4 II-6 11-50 Tls-1450 (S) -I-4 II-6 11-53 Tls-1451 (S) -I-4 II-6 11-60 Tls-1452 (S) -I-4 II-6 11-62 Tls-1453 (S) -I-4 II-6 11-66 Tls-1454 (S) -I-4 II-6 11-69 Tls-1455 (S) -I-4 II-6 11-70 Tls-1456 (8) -1-4 II-6 11-71 Tls-1457 (S) -I-4 II-6 11-72 Tls-1458 (S) -I-4 II-6 11-74 Tls-1459 (S) -I-4 II-6 11-76 Tls-1460 (S) -I-4 II-6 11-78 Tls-1461 (S) -I-4 II-6 11-84 Tls-1462 (S) -I-4 II-6 11-85 Tls-1463 (S) -I-4 II-6 11-86 Tls-1464 (S) -I-4 II-6 11-92 Tls-1465 (S) -I-4 II-7 II-8 Tls-1466 (S) -I-4 II-7 II-11 Tls-1467 (S) -I-4 II-7 11-16 Tls-1468 (S) -I-4 II-7 11-21 Tls-1469 (S) -I-4 II-7 11-26 Tls-1470 (S) -I-4 II-7 11-32 Tls-1471 (S) -I-4 II-7 11-33 Tls-1472 (S) -I-4 II-7 11-37 Tls-1473 (S) -I-4 II-7 11-39 Tls-1474 (S) -I-4 II-7 11-42 Tls-1475 (S) -I-4 II-7 11-44 Tls-1476 (S) -I-4 II-7 11-50 Tls-1477 (S) -I-4 II-7 11-53 Tls-1478 (S) -I-4 II-7 11-60

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Tls-1479 (S) -I-4 II-7 11-62 Tls-1480 (S) -I-4 II-7 11-66 Tls-1481 (S) -I-4 II-7 11-69 Tls-1482 (S) -I-4 II-7 11-70 Tls-1483 (S) -I-4 II-7 11-71 Tls-1484 (S) -I-4 II-7 11-72 Tls-1485 (S) -I-4 II-7 11-74 Tls-1486 (S) -I-4 II-7 11-76 Tls-1487 (S) -I-4 II-7 11-78 Tls-1488 (S) -I-4 II-7 11-84 Tls-1489 (S) -I-4 II-7 11-85 Tls-1490 (S) -I-4 II-7 11-86 Tls-1491 (S) -I-4 II-7 11-92 Tls-1492 (S) -I-4 II-8 II-11 Tls-1493 (S) -I-4 II-8 11-16 Tls-1494 (S) -I-4 II-8 11-21 Tls-1495 (S) -I-4 II-8 11-26 Tls-1496 (S) -I-4 II-8 11-32 Tls-1497 (S) -I-4 II-8 11-33 Tls-1498 (S) -I-4 II-8 11-37 Tls-1499 (S) -I-4 II-8 11-39 Tls-1500 (S) -I-4 II-8 11-42 Tls-1501 (S) -I-4 II-8 11-44 Tls-1502 (S) -I-4 II-8 11-50 Tls-1503 (S) -I-4 II-8 11-53 Tls-1504 (S) -I-4 II-8 11-60 Tls-1505 (S) -I-4 II-8 11-62 Tls-1506 (S) -I-4 II-8 11-66 Tls-1507 (S) -I-4 II-8 11-69 Tls-1508 (S) -I-4 II-8 11-70 Tls-1509 (S) -I-4 II-8 11-71 Tls-1510 (S) -I-4 II-8 11-72 Tls-1511 (S) -I-4 II-8 11-74 Tls-1512 (S) -I-4 II-8 11-76 Tls-1513 (S) -I-4 II-8 11-78 Tls-1514 (S) -I-4 II-8 11-84 Tls-1515 (S) -I-4 II-8 11-85 Tls-1516 (S) -I-4 II-8 11-86 Tls-1517 (S) -I-4 II-8 11-92 Tls-1518 (S) -I-4 II-11 11-16 Tls-1519 (S) -I-4 II-11 11-21 Tls-1520 (S) -I-4 II-11 11-26 Tls-1521 (S) -I-4 II-11 11-32 Tls-1522 (S) -I-4 II-11 11-33 Tls-1523 (S) -I-4 II-11 11-37 Tls-1524 (S) -I-4 II-11 11-39

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Tls-1525 (S) -I-4 II-11 11-42 Tls-1526 (S) -I-4 II-11 11-44 Tls-1527 (S) -I-4 II-11 11-50 Tls-1528 (S) -I-4 II-11 11-53 Tls-1529 (S) -I-4 II-11 11-60 Tls-1530 (S) -I-4 II-11 11-62 Tls-1531 (S) -I-4 II-11 11-66 Tls-1532 (S) -I-4 II-11 11-69 Tls-1533 (S) -I-4 II-11 11-70 Tls-1534 (S) -I-4 II-11 11-71 Tls-1535 (S) -I-4 II-11 11-72 Tls-1536 (S) -I-4 II-11 11-74 Tls-1537 (S) -I-4 II-11 11-76 Tls-1538 (S) -I-4 II-11 11-78 Tls-1539 (S) -I-4 II-11 11-84 Tls-1540 (S) -I-4 II-11 11-85 Tls-1541 (S) -I-4 II-11 11-86 Tls-1542 (S) -I-4 II-11 11-92 Tls-1543 (S) -I-4 11-16 11-21 Tls-1544 (S) -I-4 11-16 11-26 Tls-1545 (S) -I-4 11-16 11-32 Tls-1546 (S) -I-4 11-16 11-33 Tls-1547 (S) -I-4 11-16 11-37 Tls-1548 (S) -I-4 11-16 11-39 Tls-1549 (S) -I-4 11-16 11-42 Tls-1550 (S) -I-4 11-16 11-44 Tls-1551 (S) -I-4 11-16 11-50 Tls-1552 (S) -I-4 11-16 11-53 Tls-1553 (S) -I-4 11-16 11-60 Tls-1554 (S) -I-4 11-16 11-62 Tls-1555 (S) -I-4 11-16 11-66 Tls-1556 (S) -I-4 11-16 11-69 Tls-1557 (S) -I-4 11-16 11-70 Tls-1558 (S) -I-4 11-16 11-71 Tls-1559 (S) -I-4 11-16 11-72 Tls-1560 (S) -I-4 11-16 11-74 Tls-1561 (S) -I-4 11-16 11-76 Tls-1562 (S) -I-4 11-16 11-78 Tls-1563 (S) -I-4 11-16 11-84 Tls-1564 (S) -I-4 11-16 11-85 Tls-1565 (S) -I-4 11-16 11-86 Tls-1566 (S) -I-4 11-16 11-92 Tls-1567 (S) -I-4 11-21 11-26 Tls-1568 (S) -I-4 11-21 11-32 Tls-1569 (S) -I-4 11-21 11-33 Tls-1570 (S) -I-4 11-21 11-37

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Tls-1571 (S) -I-4 11-21 11-39 Tls-1572 (S) -I-4 11-21 11-42 Tls-1573 (S) -I-4 11-21 11-44 Tls-1574 (S) -I-4 11-21 11-50 Tls-1575 (S) -I-4 11-21 11-53 Tls-1576 (S) -I-4 11-21 11-60 Tls-1577 (S) -I-4 11-21 11-62 Tls-1578 (S) -I-4 11-21 11-66 Tls-1579 (S) -I-4 11-21 11-69 Tls-1580 (S) -I-4 11-21 11-70 Tls-1581 (S) -I-4 11-21 11-71 Tls-1582 (S) -I-4 11-21 11-72 Tls-1583 (S) -I-4 11-21 11-74 Tls-1584 (S) -I-4 11-21 11-76 Tls-1585 (S) 4-4 11-21 11-78 Tls-1586 (S) 4-4 11-21 11-84 Tls-1587 (S) -I-4 11-21 11-85 Tls-1588 (S) -I-4 11-21 11-86 Tls-1589 (S) 4-4 11-21 11-92 Tls-1590 (S) 4-4 11-26 11-32 Tls-1591 (8) -1-4 11-26 11-33 Tls-1592 (S) 4-4 11-26 11-37 Tls-1593 (S) 4-4 11-26 11-39 Tls-1594 (S) 4-4 11-26 11-42 Tls-1595 (S) -I-4 11-26 11-44 Tls-1596 (S) -I-4 11-26 11-50 Tls-1597 (S) -I-4 11-26 11-53 Tls-1598 (S) 4-4 11-26 11-60 Tls-1599 (S) 4-4 11-26 11-62 Tls-1600 (5) 4-4 11-26 11-66 Tls-1601 (5) 4-4 11-26 11-69 Tls-1602 (S) 4-4 11-26 11-70 Tls-1603 (5) 4-4 11-26 11-71 Tls-1604 (S) -I-4 11-26 11-72 Tls-1605 (S) -I-4 11-26 11-74 Tls-1606 (S) -I-4 11-26 11-76 Tls-1607 (S) -I-4 11-26 11-78 Tls-1608 (S) 4-4 11-26 11-84 Tls-1609 (S) 4-4 11-26 11-85 Tls-1610 (S) 4-4 11-26 11-86 Tls-1611 (S) 4-4 11-26 11-92 Tls-1612 (S) 4-4 11-32 11-33 Tls-1613 (5) 4-4 11-32 11-37 Tls-1614 (S) -I-4 11-32 11-39 Tls-1615 (S) 4-4 11-32 11-42 Tls-1616 (5) 4-4 11-32 11-44

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Tls-1617 (S) -I-4 11-32 11-50 Tls-1618 (S) -I-4 11-32 11-53 Tls-1619 (S) -I-4 11-32 11-60 Tls-1620 (S) -I-4 11-32 11-62 Tls-1621 (5) -1-4 11-32 11-66 Tls-1622 (S) -I-4 11-32 11-69 Tls-1623 (S) -I-4 11-32 11-70 Tls-1624 (S) -I-4 11-32 11-71 Tls-1625 (S) -I-4 11-32 11-72 Tls-1626 (S) -I-4 11-32 11-74 Tls-1627 (S) -I-4 11-32 11-76 Tls-1628 (S) -I-4 11-32 11-78 Tls-1629 (S) -I-4 11-32 11-84 Tls-1630 (S) -I-4 11-32 11-85 Tls-1631 (S) -I-4 11-32 11-86 Tls-1632 (S) -I-4 11-32 11-92 Tls-1633 (S) -I-4 11-33 11-37 Tls-1634 (S) -I-4 11-33 11-39 Tls-1635 (S) -I-4 11-33 11-42 Tls-1636 (S) -I-4 11-33 11-44 Tls-1637 (S) -I-4 11-33 11-50 Tls-1638 (S) -I-4 11-33 11-53 Tls-1639 (S) -I-4 11-33 11-60 Tls-1640 (S) -I-4 11-33 11-62 Tls-1641 (S) -I-4 11-33 11-66 Tls-1642 (S) -I-4 11-33 11-69 Tls-1643 (S) -I-4 11-33 11-70 Tls-1644 (S) -I-4 11-33 11-71 Tls-1645 (S) -I-4 11-33 11-72 Tls-1646 (S) -I-4 11-33 11-74 Tls-1647 (S) -I-4 11-33 11-76 Tls-1648 (S) -I-4 11-33 11-78 Tls-1649 (S) -I-4 11-33 11-84 Tls-1650 (S) -I-4 11-33 11-85 Tls-1651 (S) -I-4 11-33 11-86 Tls-1652 (S) -I-4 11-33 11-92 Tls-1653 (S) -I-4 11-37 11-39 Tls-1654 (S) -I-4 11-37 11-42 Tls-1655 (S) -I-4 11-37 11-44 Tls-1656 (S) -I-4 11-37 11-50 Tls-1657 (S) -I-4 11-37 11-53 Tls-1658 (S) -I-4 11-37 11-60 Tls-1659 (S) -I-4 11-37 11-62 Tls-1660 (S) -I-4 11-37 11-66 Tls-1661 (S) -I-4 11-37 11-69 Tls-1662 (S) -I-4 11-37 11-70

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Tls-1663 (S) -I-4 11-37 11-71 Tls-1664 (S) -I-4 11-37 11-72 Tls-1665 (S) -I-4 11-37 11-74 Tls-1666 (S) -I-4 11-37 11-76 Tls-1667 (S) -I-4 11-37 11-78 Tls-1668 (S) -I-4 11-37 11-84 Tls-1669 (S) -I-4 11-37 11-85 Tls-1670 (S) -I-4 11-37 11-86 Tls-1671 (S) -I-4 11-37 11-92 Tls-1672 (S) -I-4 11-39 11-42 Tls-1673 (S) -I-4 11-39 11-44 Tls-1674 (8) -1-4 11-39 11-50 Tls-1675 (S) -I-4 11-39 11-53 Tls-1676 (S) -I-4 11-39 11-60 Tls-1677 (S) -I-4 11-39 11-62 Tls-1678 (S) -I-4 11-39 11-66 Tls-1679 (S) -I-4 11-39 11-69 Tls-1680 (S) -I-4 11-39 11-70 Tls-1681 (S) -I-4 11-39 11-71 Tls-1682 (S) -I-4 11-39 11-72 Tls-1683 (S) -I-4 11-39 11-74 Tls-1684 (S) -I-4 11-39 11-76 Tls-1685 (S) -I-4 11-39 11-78 Tls-1686 (S) -I-4 11-39 11-84 Tls-1687 (S) -I-4 11-39 11-85 Tls-1688 (S) -I-4 11-39 11-86 Tls-1689 (S) -I-4 11-39 11-92 Tls-1690 (S) -I-4 11-42 11-44 Tls-1691 (S) -I-4 11-42 11-50 Tls-1692 (S) -I-4 11-42 11-53 Tls-1693 (S) -I-4 11-42 11-60 Tls-1694 (S) -I-4 11-42 11-62 Tls-1695 (S) -I-4 11-42 11-66 Tls-1696 (S) -I-4 11-42 11-69 Tls-1697 (S) -I-4 11-42 11-70 Tls-1698 (S) -I-4 11-42 11-71 Tls-1699 (S) -I-4 11-42 11-72 Tls-1700 (S) -I-4 11-42 11-74 Tls-1701 (S) -I-4 11-42 11-76 Tls-1702 (8) -1-4 11-42 11-78 Tls-1703 (S) -I-4 11-42 11-84 Tls-1704 (S) -I-4 11-42 11-85 Tls-1705 (8) -1-4 11-42 11-86 Tls-1706 (S) -I-4 11-42 11-92 Tls-1707 (S) -I-4 11-44 11-50 Tls-1708 (S) -I-4 11-44 11-53

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Tls-1709 (S) -I-4 11-44 11-60 Tls-1710 (5) -1-4 11-44 11-62 Tls-1711 (S) -I-4 11-44 11-66 Tls-1712 (S) -I-4 11-44 11-69 Tls-1713 (8) -1-4 11-44 11-70 Tls-1714 (S) -I-4 11-44 11-71 Tls-1715 (8) -1-4 11-44 11-72 Tls-1716 (S) -I-4 11-44 11-74 Tls-1717 (S) -I-4 11-44 11-76 Tls-1718 (S) -I-4 11-44 11-78 Tls-1719 (S) -I-4 11-44 11-84 Tls-1720 (S) -I-4 11-44 11-85 Tls-1721 (S) -I-4 11-44 11-86 Tls-1722 (8) -1-4 11-44 11-92 Tls-1723 (S) -I-4 11-50 11-53 Tls-1724 (8) -1-4 11-50 11-60 Tls-1725 (S) -I-4 11-50 11-62 Tls-1726 (S) -I-4 11-50 11-66 Tls-1727 (8) -1-4 11-50 11-69 Tls-1728 (S) -I-4 11-50 11-70 Tls-1729 (S) -I-4 11-50 11-71 Tls-1730 (S) -I-4 11-50 11-72 Tls-1731 (S) -I-4 11-50 11-74 Tls-1732 (S) -I-4 11-50 11-76 Tls-1733 (S) -I-4 11-50 11-78 Tls-1734 (5) -1-4 11-50 11-84 Tls-1735 (S) -I-4 11-50 11-85 Tls-1736 (8) -1-4 11-50 11-86 Tls-1737 (S) -I-4 11-50 11-92 Tls-1738 (S) -I-4 11-53 11-60 Tls-1739 (8) -1-4 11-53 11-62 Tls-1740 (S) -I-4 11-53 11-66 Tls-1741 (S) -I-4 11-53 11-69 Tls-1742 (S) -I-4 11-53 11-70 Tls-1743 (S) -I-4 11-53 11-71 Tls-1744 (S) -I-4 11-53 11-72 Tls-1745 (S) -I-4 11-53 11-74 Tls-1746 (S) -I-4 11-53 11-76 Tls-1747 (S) -I-4 11-53 11-78 Tls-1748 (S) -I-4 11-53 11-84 Tls-1749 (S) -I-4 11-53 11-85 Tls-1750 (S) -I-4 11-53 11-86 Tls-1751 (5) -1-4 11-53 11-92 Tls-1752 (S) -I-4 11-60 11-62 Tls-1753 (S) -I-4 11-60 11-66 Tls-1754 (8) -1-4 11-60 11-69

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Tls-1755 (S) -I-4 11-60 11-70 Tls-1756 (8) -1-4 11-60 11-71 Tls-1757 (S) -I-4 11-60 11-72 Tls-1758 (S) -I-4 11-60 11-74 Tls-1759 (8) -1-4 11-60 11-76 Tls-1760 (S) -I-4 11-60 11-78 Tls-1761 (S) -I-4 11-60 11-84 Tls-1762 (S) -I-4 11-60 11-85 Tls-1763 (S) -I-4 11-60 11-86 Tls-1764 (S) -I-4 11-60 11-92 Tls-1765 (S) -I-4 11-62 11-66 Tls-1766 (8) -1-4 11-62 11-69 Tls-1767 (S) -I-4 11-62 11-70 Tls-1768 (S) -I-4 11-62 11-71 Tls-1769 (S) -I-4 11-62 11-72 Tls-1770 (S) -I-4 11-62 11-74 Tls-1771 (S) -I-4 11-62 11-76 Tls-1772 (S) -I-4 11-62 11-78 Tls-1773 (8) -1-4 11-62 11-84 Tls-1774 (S) -I-4 11-62 11-85 Tls-1775 (S) -I-4 11-62 11-86 Tls-1776 (S) -I-4 11-62 11-92 Tls-1777 (S) -I-4 11-66 11-69 Tls-1778 (S) -I-4 11-66 11-70 Tls-1779 (S) -I-4 11-66 11-71 Tls-1780 (8) -1-4 11-66 11-72 Tls-1781 (S) -I-4 11-66 11-74 Tls-1782 (8) -1-4 11-66 11-76 Tls-1783 (S) -I-4 11-66 11-78 Tls-1784 (S) -I-4 11-66 11-84 Tls-1785 (S) -I-4 11-66 11-85 Tls-1786 (S) -I-4 11-66 11-86 Tls-1787 (S) -I-4 11-66 11-92 Tls-1788 (S) -I-4 11-69 11-70 Tls-1789 (8) -1-4 11-69 11-71 Tls-1790 (S) -I-4 11-69 11-72 Tls-1791 (S) -I-4 11-69 11-74 Tls-1792 (S) -I-4 11-69 11-76 Tls-1793 (S) -I-4 11-69 11-78 Tls-1794 (S) -I-4 11-69 11-84 Tls-1795 (S) -I-4 11-69 11-85 Tls-1796 (S) -I-4 11-69 11-86 Tls-1797 (8) -1-4 11-69 11-92 Tls-1798 (S) -I-4 11-70 11-71 Tls-1799 (S) -I-4 11-70 11-72 Tls-1800 (8) -1-4 11-70 11-74 Tls-1801 (S) -I-4 11-70 11-76 Tls-1802 (S) -I-4 11-70 11-78 Tls-1803 (8) -1-4 11-70 11-84 Tls-1804 (S) -I-4 11-70 11-85 Tls-1805 (8) -1-4 11-70 11-86 Tls-1806 (S) -I-4 11-70 11-92 Tls-1807 (8) -1-4 11-71 11-72 Tls-1808 (S) -I-4 11-71 11-74 Tls-1809 (8) -1-4 11-71 11-76 Tls-1810 (S) -I-4 11-71 11-78 Tls-1811 (8) -1-4 11-71 11-84 Tls-1812 (S) -I-4 11-71 11-85 Tls-1813 (S) -I-4 11-71 11-86 Tls-1814 (S) -I-4 11-71 11-92 Tls-1815 (S) -I-4 11-72 11-74 Tls-1816 (8) -1-4 11-74 11-76 Tls-1817 (S) -I-4 11-74 11-78 Tls-1818 (S) -I-4 11-74 11-84

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Tls-1819 (S) -I-4 11-74 11-85 Tls-1820 (S) -I-4 11-74 11-86 Tls-1821 (S) -I-4 11-74 11-92 Tls-1822 (S) -I-4 11-76 11-78 Tls-1823 (S) -I-4 11-76 11-84 Tls-1824 (S) -I-4 11-76 11-85 Tls-1825 (S) -I-4 11-76 11-86 Tls-1826 (S) -I-4 11-76 11-92 Tls-1827 (S) -I-4 11-78 11-84 Tls-1828 (S) -I-4 11-78 11-85 Tls-1829 (S) -I-4 11-78 11-86 Tls-1830 (S) -I-4 11-78 11-92 Tls-1831 (S) -I-4 11-84 11-85 Tls-1832 (S) -I-4 11-84 11-86 Tls-1833 (S) -I-4 11-84 11-92 Tls-1834 (S) -I-4 11-85 11-86 Tls-1835 (S) -I-4 11-85 11-92 Tls-1836 (S) -I-4 11-86 11-92

In accordance with particular embodiments of the invention, the corresponding component I is present as the (R) enantiomer. Special three-component compositions containing the (R) enantiomer of the corresponding component I are listed in Table. T1r, in which each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, these are ternary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. T1r: three-component compositions containing one component I in the form of (R) enantiomer (abbreviated as (R) -I, for example, (R) -I-1 for Y) enantiomer I-1), one component II and one component III , in particular ternary compositions containing the corresponding component I in the form of (R) enantiomer, II and III only as active substances.

Table t1r

composition (R) -I II III Tlr-1 (R) -Il II-3 II-5 Tlr-2 (R) -Il II-3 II-6 Tlr-3 (R) -Il II-3 II-7 Tlr-4 (R) -Il II-3 II-8

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Tlr-5 (R) -Il II-3 II-11 Tlr-6 (R) -Il II-3 11-16 Tlr-7 (R) -Il II-3 11-21 Tlr-8 (R) -Il II-3 11-26 Tlr-9 (R) -Il II-3 11-32 Tlr-10 (R) -Il II-3 11-33 Tlr-11 (R) -Il II-3 11-37 Tlr-12 (R) -Il II-3 11-39 Tlr-13 (R) -Il II-3 11-42 Tlr-14 (R) -Il II-3 11-44 Tlr-15 (R) -Il II-3 11-50 Tlr-16 (R) -Il II-3 11-53 Tlr-17 (R) -Il II-3 11-60 Tlr-18 (R) -Il II-3 11-62 Tlr-19 (R) -Il II-3 11-66 Tlr-20 (R) -Il II-3 11-69 Tlr-21 (R) -Il II-3 11-70 Tlr-22 (R) -Il II-3 11-71 Tlr-23 (R) -Il II-3 11-72 Tlr-24 (R) -Il II-3 11-74 Tlr-25 (R) -Il II-3 11-76 Tlr-26 (R) -Il II-3 11-78 Tlr-27 (R) -Il II-3 11-84 Tlr-28 (R) -Il II-3 11-85 Tlr-29 (R) -Il II-3 11-86 Tlr-30 (R) -Il II-3 11-92 Tlr-31 (R) -Il II-5 II-6 Tlr-32 (R) -Il II-5 II-7 Tlr-33 (R) -Il II-5 II-8 Tlr-34 (R) -Il II-5 II-11 Tlr-35 (R) -Il II-5 11-16 Tlr-36 (R) -Il II-5 11-21 Tlr-37 (R) -Il II-5 11-26 Tlr-38 (R) -Il II-5 11-32 Tlr-39 (R) -Il II-5 11-33 Tlr-40 (R) -Il II-5 11-37 Tlr-41 (R) -Il II-5 11-39 Tlr-42 (R) -Il II-5 11-42 Tlr-43 (R) -Il II-5 11-44 Tlr-44 (R) -Il II-5 11-50 Tlr-45 (R) -Il II-5 11-53 Tlr-46 (R) -Il II-5 11-60 Tlr-47 (R) -Il II-5 11-62 Tlr-48 (R) -Il II-5 11-66 Tlr-49 (R) -Il II-5 11-69 Tlr-50 (R) -Il II-5 11-70

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Tlr-51 (R) -Il II-5 11-71 Tlr-52 (R) -Il II-5 11-72 Tlr-53 (R) -Il II-5 11-74 Tlr-54 (R) -Il II-5 11-76 Tlr-55 (R) -Il II-5 11-78 Tlr-56 (R) -Il II-5 11-84 Tlr-57 (R) -Il II-5 11-85 Tlr-58 (R) -Il II-5 11-86 Tlr-59 (R) -Il II-5 11-92 Tlr-60 (R) -Il II-6 II-7 Tlr-61 (R) -Il II-6 II-8 Tlr-62 (R) -Il II-6 II-11 Tlr-63 (R) -Il II-6 11-16 Tlr-64 (R) -Il II-6 11-21 Tlr-65 (R) -Il II-6 11-26 Tlr-66 (R) -Il II-6 11-32 Tlr-67 (R) -Il II-6 11-33 Tlr-68 (R) -Il II-6 11-37 Tlr-69 (R) -Il II-6 11-39 Tlr-70 (R) -Il II-6 11-42 Tlr-71 (R) -Il II-6 11-44 Tlr-72 (R) -Il II-6 11-50 Tlr-73 (R) -Il II-6 11-53 Tlr-74 (R) -Il II-6 11-60 Tlr-75 (R) -Il II-6 11-62 Tlr-76 (R) -Il II-6 11-66 Tlr-77 (R) -Il II-6 11-69 Tlr-78 (R) -Il II-6 11-70 Tlr-79 (R) -Il II-6 11-71 Tlr-80 (R) -Il II-6 11-72 Tlr-81 (R) -Il II-6 11-74 Tlr-82 (R) -Il II-6 11-76 Tlr-83 (R) -Il II-6 11-78 Tlr-84 (R) -Il II-6 11-84 Tlr-85 (R) -Il II-6 11-85 Tlr-86 (R) -Il II-6 11-86 Tlr-87 (R) -Il II-6 11-92 Tlr-88 (R) -Il II-7 II-8 Tlr-89 (R) -Il II-7 II-11 Tlr-90 (R) -Il II-7 11-16 Tlr-91 (R) -Il II-7 11-21 Tlr-92 (R) -Il II-7 11-26 Tlr-93 (R) -Il II-7 11-32 Tlr-94 (R) -Il II-7 11-33 Tlr-95 (R) -Il II-7 11-37 Tlr-96 (R) -Il II-7 11-39

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Tlr-97 (R) -Il II-7 11-42 Tlr-98 (R) -Il II-7 11-44 Tlr-99 (R) -Il II-7 11-50 Tlr-100 (R) -Il II-7 11-53 Tlr-101 (R) -Il II-7 11-60 Tlr-102 (R) -Il II-7 11-62 Tlr-103 (R) -Il II-7 11-66 Tlr-104 (R) -Il II-7 11-69 Tlr-105 (R) -Il II-7 11-70 Tlr-106 (R) -Il II-7 11-71 Tlr-107 (R) -Il II-7 11-72 Tlr-108 (R) -Il II-7 11-74 Tlr-109 (R) -Il II-7 11-76 Tlr-110 (R) -Il II-7 11-78 Tlr-111 (R) -Il II-7 11-84 Tlr-112 (R) -Il II-7 11-85 Tlr-113 (R) -Il II-7 11-86 Tlr-114 (R) -Il II-7 11-92 Tlr-115 (R) -Il II-8 II-11 Tlr-116 (R) -Il II-8 11-16 Tlr-117 (R) -Il II-8 11-21 Tlr-118 (R) -Il II-8 11-26 Tlr-119 (R) -Il II-8 11-32 Tlr-120 (R) -Il II-8 11-33 Tlr-121 (R) -Il II-8 11-37 Tlr-122 (R) -Il II-8 11-39 Tlr-123 (R) -Il II-8 11-42 Tlr-124 (R) -Il II-8 11-44 Tlr-125 (R) -Il II-8 11-50 Tlr-126 (R) -Il II-8 11-53 Tlr-127 (R) -Il II-8 11-60 Tlr-128 (R) -Il II-8 11-62 Tlr-129 (R) -Il II-8 11-66 Tlr-130 (R) -Il II-8 11-69 Tlr-131 (R) -Il II-8 11-70 Tlr-132 (R) -Il II-8 11-71 Tlr-133 (R) -Il II-8 11-72 Tlr-134 (R) -Il II-8 11-74 Tlr-135 (R) -Il II-8 11-76 Tlr-136 (R) -Il II-8 11-78 Tlr-137 (R) -Il II-8 11-84 Tlr-138 (R) -Il II-8 11-85 Tlr-139 (R) -Il II-8 11-86 Tlr-140 (R) -Il II-8 11-92 Tlr-141 (R) -Il II-11 11-16 Tlr-142 (R) -Il II-11 11-21

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Tlr-143 (R) -Il II-11 11-26 Tlr-144 (R) -Il II-11 11-32 Tlr-145 (R) -Il II-11 11-33 Tlr-146 (R) -Il II-11 11-37 Tlr-147 (R) -Il II-11 11-39 Tlr-148 (R) -Il II-11 11-42 Tlr-149 (R) -Il II-11 11-44 Tlr-150 (R) -Il II-11 11-50 Tlr-151 (R) -Il II-11 11-53 Tlr-152 (R) -Il II-11 11-60 Tlr-153 (R) -Il II-11 11-62 Tlr-154 (R) -Il II-11 11-66 Tlr-155 (R) -Il II-11 11-69 Tlr-156 (R) -Il II-11 11-70 Tlr-157 (R) -Il II-11 11-71 Tlr-158 (R) -Il II-11 11-72 Tlr-159 (R) -Il II-11 11-74 Tlr-160 (R) -Il II-11 11-76 Tlr-161 (R) -Il II-11 11-78 Tlr-162 (R) -Il II-11 11-84 Tlr-163 (R) -Il II-11 11-85 Tlr-164 (R) -Il II-11 11-86 Tlr-165 (R) -Il II-11 11-92 Tlr-166 (R) -Il 11-16 11-21 Tlr-167 (R) -Il 11-16 11-26 Tlr-168 (R) -Il 11-16 11-32 Tlr-169 (R) -Il 11-16 11-33 Tlr-170 (R) -Il 11-16 11-37 Tlr-171 (R) -Il 11-16 11-39 Tlr-172 (R) -Il 11-16 11-42 Tlr-173 (R) -Il 11-16 11-44 Tlr-174 (R) -Il 11-16 11-50 Tlr-175 (R) -Il 11-16 11-53 Tlr-176 (R) -Il 11-16 11-60 Tlr-177 (R) -Il 11-16 11-62 Tlr-178 (R) -Il 11-16 11-66 Tlr-179 (R) -Il 11-16 11-69 Tlr-180 (R) -Il 11-16 11-70 Tlr-181 (R) -Il 11-16 11-71 Tlr-182 (R) -Il 11-16 11-72 Tlr-183 (R) -Il 11-16 11-74 Tlr-184 (R) -Il 11-16 11-76 Tlr-185 (R) -Il 11-16 11-78 Tlr-186 (R) -Il 11-16 11-84 Tlr-187 (R) -Il 11-16 11-85 Tlr-188 (R) -Il 11-16 11-86

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Tlr-189 (R) -Il 11-16 11-92 Tlr-190 (R) -Il 11-21 11-26 Tlr-191 (R) -Il 11-21 11-32 Tlr-192 (R) -Il 11-21 11-33 Tlr-193 (R) -Il 11-21 11-37 Tlr-194 (R) -Il 11-21 11-39 Tlr-195 (R) -Il 11-21 11-42 Tlr-196 (R) -Il 11-21 11-44 Tlr-197 (R) -Il 11-21 11-50 Tlr-198 (R) -Il 11-21 11-53 Tlr-199 (R) -Il 11-21 11-60 Tlr-200 (R) -Il 11-21 11-62 Tlr-201 (R) -Il 11-21 11-66 Tlr-202 (R) -Il 11-21 11-69 Tlr-203 (R) -Il 11-21 11-70 Tlr-204 (R) -Il 11-21 11-71 Tlr-205 (R) -Il 11-21 11-72 Tlr-206 (R) -Il 11-21 11-74 Tlr-207 (R) -Il 11-21 11-76 Tlr-208 (R) -Il 11-21 11-78 Tlr-209 (R) -Il 11-21 11-84 Tlr-210 (R) -Il 11-21 11-85 Tlr-211 (R) -Il 11-21 11-86 Tlr-212 (R) -Il 11-21 11-92 Tlr-213 (R) -Il 11-26 11-32 Tlr-214 (R) -Il 11-26 11-33 Tlr-215 (R) -Il 11-26 11-37 Tlr-216 (R) -Il 11-26 11-39 Tlr-217 (R) -Il 11-26 11-42 Tlr-218 (R) -Il 11-26 11-44 Tlr-219 (R) -Il 11-26 11-50 Tlr-220 (R) -Il 11-26 11-53 Tlr-221 (R) -Il 11-26 11-60 Tlr-222 (R) -Il 11-26 11-62 Tlr-223 (R) -Il 11-26 11-66 Tlr-224 (R) -Il 11-26 11-69 Tlr-225 (R) -Il 11-26 11-70 Tlr-226 (R) -Il 11-26 11-71 Tlr-227 (R) -Il 11-26 11-72 Tlr-228 (R) -Il 11-26 11-74 Tlr-229 (R) -Il 11-26 11-76 Tlr-230 (R) -Il 11-26 11-78 Tlr-231 (R) -Il 11-26 11-84 Tlr-232 (R) -Il 11-26 11-85 Tlr-233 (R) -Il 11-26 11-86 Tlr-234 (R) -Il 11-26 11-92

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Tlr-235 (R) -Il 11-32 11-33 Tlr-236 (R) -Il 11-32 11-37 Tlr-237 (R) -Il 11-32 11-39 Tlr-238 (R) -Il 11-32 11-42 Tlr-239 (R) -Il 11-32 11-44 Tlr-240 (R) -Il 11-32 11-50 Tlr-241 (R) -Il 11-32 11-53 Tlr-242 (R) -Il 11-32 11-60 Tlr-243 (R) -Il 11-32 11-62 Tlr-244 (R) -Il 11-32 11-66 Tlr-245 (R) -Il 11-32 11-69 Tlr-246 (R) -Il 11-32 11-70 Tlr-247 (R) -Il 11-32 11-71 Tlr-248 (R) -Il 11-32 11-72 Tlr-249 (R) -Il 11-32 11-74 Tlr-250 (R) -Il 11-32 11-76 Tlr-251 (R) -Il 11-32 11-78 Tlr-252 (R) -Il 11-32 11-84 Tlr-253 (R) -Il 11-32 11-85 Tlr-254 (R) -Il 11-32 11-86 Tlr-255 (R) -Il 11-32 11-92 Tlr-256 (R) -Il 11-33 11-37 Tlr-257 (R) -Il 11-33 11-39 Tlr-258 (R) -Il 11-33 11-42 Tlr-259 (R) -Il 11-33 11-44 Tlr-260 (R) -Il 11-33 11-50 Tlr-261 (R) -Il 11-33 11-53 Tlr-262 (R) -Il 11-33 11-60 Tlr-263 (R) -Il 11-33 11-62 Tlr-264 (R) -Il 11-33 11-66 Tlr-265 (R) -Il 11-33 11-69 Tlr-266 (R) -Il 11-33 11-70 Tlr-267 (R) -Il 11-33 11-71 Tlr-268 (R) -Il 11-33 11-72 Tlr-269 (R) -Il 11-33 11-74 Tlr-270 (R) -Il 11-33 11-76 Tlr-271 (R) -Il 11-33 11-78 Tlr-272 (R) -Il 11-33 11-84 Tlr-273 (R) -Il 11-33 11-85 Tlr-274 (R) -Il 11-33 11-86 Tlr-275 (R) -Il 11-33 11-92 Tlr-276 (R) -Il 11-37 11-39 Tlr-277 (R) -Il 11-37 11-42 Tlr-278 (R) -Il 11-37 11-44 Tlr-279 (R) -Il 11-37 11-50 Tlr-280 (R) -Il 11-37 11-53

- 152 030875

Tlr-281 (R) -Il 11-37 11-60 Tlr-282 (R) -Il 11-37 11-62 Tlr-283 (R) -Il 11-37 11-66 Tlr-284 (R) -Il 11-37 11-69 Tlr-285 (R) -Il 11-37 11-70 Tlr-286 (R) -Il 11-37 11-71 Tlr-287 (R) -Il 11-37 11-72 Tlr-288 (R) -Il 11-37 11-74 Tlr-289 (R) -Il 11-37 11-76 Tlr-290 (R) -Il 11-37 11-78 Tlr-291 (R) -Il 11-37 11-84 Tlr-292 (R) -Il 11-37 11-85 Tlr-293 (R) -Il 11-37 11-86 Tlr-294 (R) -Il 11-37 11-92 Tlr-295 (R) -Il 11-39 11-42 Tlr-296 (R) -Il 11-39 11-44 Tlr-297 (R) -Il 11-39 11-50 Tlr-298 (R) -Il 11-39 11-53 Tlr-299 (R) -Il 11-39 11-60 Tlr-300 (R) -Il 11-39 11-62 Tlr-301 (R) -Il 11-39 11-66 Tlr-302 (R) -Il 11-39 11-69 Tlr-303 (R) -Il 11-39 11-70 Tlr-304 (R) -Il 11-39 11-71 Tlr-305 (R) -Il 11-39 11-72 Tlr-306 (R) -Il 11-39 11-74 Tlr-307 (R) -Il 11-39 11-76 Tlr-308 (R) -Il 11-39 11-78 Tlr-309 (R) -Il 11-39 11-84 Tlr-310 (R) -Il 11-39 11-85 Tlr-311 (R) -Il 11-39 11-86 Tlr-312 (R) -Il 11-39 11-92 Tlr-313 (R) -Il 11-42 11-44 Tlr-314 (R) -Il 11-42 11-50 Tlr-315 (R) -Il 11-42 11-53 Tlr-316 (R) -Il 11-42 11-60 Tlr-317 (R) -Il 11-42 11-62 Tlr-318 (R) -Il 11-42 11-66 Tlr-319 (R) -Il 11-42 11-69 Tlr-320 (R) -Il 11-42 11-70 Tlr-321 (R) -Il 11-42 11-71 Tlr-322 (R) -Il 11-42 11-72 Tlr-323 (R) -Il 11-42 11-74 Tlr-324 (R) -Il 11-42 11-76 Tlr-325 (R) -Il 11-42 11-78 Tlr-326 (R) -Il 11-42 11-84

- 153 030875

Tlr-327 (R) -Il 11-42 11-85 Tlr-328 (R) -Il 11-42 11-86 Tlr-329 (R) -Il 11-42 11-92 Tlr-330 (R) -Il 11-44 11-50 Tlr-331 (R) -Il 11-44 11-53 Tlr-332 (R) -Il 11-44 11-60 Tlr-333 (R) -Il 11-44 11-62 Tlr-334 (R) -Il 11-44 11-66 Tlr-335 (R) -Il 11-44 11-69 Tlr-336 (R) -Il 11-44 11-70 Tlr-337 (R) -Il 11-44 11-71 Tlr-338 (R) -Il 11-44 11-72 Tlr-339 (R) -Il 11-44 11-74 Tlr-340 (R) -Il 11-44 11-76 Tlr-341 (R) -Il 11-44 11-78 Tlr-342 (R) -Il 11-44 11-84 Tlr-343 (R) -Il 11-44 11-85 Tlr-344 (R) -Il 11-44 11-86 Tlr-345 (R) -Il 11-44 11-92 Tlr-346 (R) -Il 11-50 11-53 Tlr-347 (R) -Il 11-50 11-60 Tlr-348 (R) -Il 11-50 11-62 Tlr-349 (R) -Il 11-50 11-66 Tlr-350 (R) -Il 11-50 11-69 Tlr-351 (R) -Il 11-50 11-70 Tlr-352 (R) -Il 11-50 11-71 Tlr-353 (R) -Il 11-50 11-72 Tlr-354 (R) -Il 11-50 11-74 Tlr-355 (R) -Il 11-50 11-76 Tlr-356 (R) -Il 11-50 11-78 Tlr-357 (R) -Il 11-50 11-84 Tlr-358 (R) -Il 11-50 11-85 Tlr-359 (R) -Il 11-50 11-86 Tlr-360 (R) -Il 11-50 11-92 Tlr-361 (R) -Il 11-53 11-60 Tlr-362 (R) -Il 11-53 11-62 Tlr-363 (R) -Il 11-53 11-66 Tlr-364 (R) -Il 11-53 11-69 Tlr-365 (R) -Il 11-53 11-70 Tlr-366 (R) -Il 11-53 11-71 Tlr-367 (R) -Il 11-53 11-72 Tlr-368 (R) -Il 11-53 11-74 Tlr-369 (R) -Il 11-53 11-76 Tlr-370 (R) -Il 11-53 11-78 Tlr-371 (R) -Il 11-53 11-84 Tlr-372 (R) -Il 11-53 11-85

- 154 030875

Tlr-373 (R) -Il 11-53 11-86 Tlr-374 (R) -Il 11-53 11-92 Tlr-375 (R) -Il 11-60 11-62 Tlr-376 (R) -Il 11-60 11-66 Tlr-377 (R) -Il 11-60 11-69 Tlr-378 (R) -Il 11-60 11-70 Tlr-379 (R) -Il 11-60 11-71 Tlr-380 (R) -Il 11-60 11-72 Tlr-381 (R) -Il 11-60 11-74 Tlr-382 (R) -Il 11-60 11-76 Tlr-383 (R) -Il 11-60 11-78 Tlr-384 (R) -Il 11-60 11-84 Tlr-385 (R) -Il 11-60 11-85 Tlr-386 (R) -Il 11-60 11-86 Tlr-387 (R) -Il 11-60 11-92 Tlr-388 (R) -Il 11-62 11-66 Tlr-389 (R) -Il 11-62 11-69 Tlr-390 (R) -Il 11-62 11-70 Tlr-391 (R) -Il 11-62 11-71 Tlr-392 (R) -Il 11-62 11-72 Tlr-393 (R) -Il 11-62 11-74 Tlr-394 (R) -Il 11-62 11-76 Tlr-395 (R) -Il 11-62 11-78 Tlr-396 (R) -Il 11-62 11-84 Tlr-397 (R) -Il 11-62 11-85 Tlr-398 (R) -Il 11-62 11-86 Tlr-399 (R) -Il 11-62 11-92 Tlr-400 (R) -Il 11-66 11-69 Tlr-401 (R) -Il 11-66 11-70 Tlr-402 (R) -Il 11-66 11-71 Tlr-403 (R) -Il 11-66 11-72 Tlr-404 (R) -Il 11-66 11-74 Tlr-405 (R) -Il 11-66 11-76 Tlr-406 (R) -Il 11-66 11-78 Tlr-407 (R) -Il 11-66 11-84 Tlr-408 (R) -Il 11-66 11-85 Tlr-409 (R) -Il 11-66 11-86 Tlr-410 (R) -Il 11-66 11-92 Tlr-411 (R) -Il 11-69 11-70 Tlr-412 (R) -Il 11-69 11-71 Tlr-413 (R) -Il 11-69 11-72 Tlr-414 (R) -Il 11-69 11-74 Tlr-415 (R) -Il 11-69 11-76 Tlr-416 (R) -Il 11-69 11-78 Tlr-417 (R) -Il 11-69 11-84 Tlr-418 (R) -Il 11-69 11-85

- 155 030875

Tlr-419 (R) -Il 11-69 11-86 Tlr-420 (R) -Il 11-69 11-92 Tlr-421 (R) -Il 11-70 11-71 Tlr-422 (R) -Il 11-70 11-72 Tlr-423 (R) -Il 11-70 11-74 Tlr-424 (R) -Il 11-70 11-76 Tlr-425 (R) -Il 11-70 11-78 Tlr-426 (R) -Il 11-70 11-84 Tlr-427 (R) -Il 11-70 11-85 Tlr-428 (R) -Il 11-70 11-86 Tlr-429 (R) -Il 11-70 11-92 Tlr-430 (R) -Il 11-71 11-72 Tlr-431 (R) -Il 11-71 11-74 Tlr-432 (R) -Il 11-71 11-76 Tlr-433 (R) -Il 11-71 11-78 Tlr-434 (R) -Il 11-71 11-84 Tlr-435 (R) -Il 11-71 11-85 Tlr-436 (R) -Il 11-71 11-86 Tlr-437 (R) -Il 11-71 11-92 Tlr-438 (R) -Il 11-72 11-74 Tlr-439 (R) -Il 11-74 11-76 Tlr-440 (R) -Il 11-74 11-78 Tlr-441 (R) -Il 11-74 11-84 Tlr-442 (R) -Il 11-74 11-85 Tlr-443 (R) -Il 11-74 11-86 Tlr-444 (R) -Il 11-74 11-92 Tlr-445 (R) -Il 11-76 11-78 Tlr-446 (R) -Il 11-76 11-84 Tlr-447 (R) -Il 11-76 11-85 Tlr-448 (R) -Il 11-76 11-86 Tlr-449 (R) -Il 11-76 11-92 Tlr-450 (R) -Il 11-78 11-84 Tlr-451 (R) -Il 11-78 11-85 Tlr-452 (R) -Il 11-78 11-86 Tlr-453 (R) -Il 11-78 11-92 Tlr-454 (R) -Il 11-84 11-85 Tlr-455 (R) -Il 11-84 11-86 Tlr-456 (R) -Il 11-84 11-92 Tlr-457 (R) -Il 11-85 11-86 Tlr-458 (R) -Il 11-85 11-92 Tlr-459 (R) -Il 11-86 11-92 Tlr-460 (R) -I-5 II-3 II-5 Tlr-461 (R) -I-5 II-3 II-6 Tlr-462 (R) -I-5 II-3 II-7 Tlr-463 (R) -I-5 II-3 II-8 Tlr-464 (R) -I-5 II-3 II-11

- 156 030875

Tlr-465 (R) -I-5 II-3 11-16 Tlr-466 (R) -I-5 II-3 11-21 Tlr-467 (R) -I-5 II-3 11-26 Tlr-468 (R) -I-5 II-3 11-32 Tlr-469 (R) -I-5 II-3 11-33 Tlr-470 (R) -I-5 II-3 11-37 Tlr-471 (R) -I-5 II-3 11-39 Tlr-472 (R) -I-5 II-3 11-42 Tlr-473 (R) -I-5 II-3 11-44 Tlr-474 (R) -I-5 II-3 11-50 Tlr-475 (R) -I-5 II-3 11-53 Tlr-476 (R) -I-5 II-3 11-60 Tlr-477 (R) -I-5 II-3 11-62 Tlr-478 (R) -I-5 II-3 11-66 Tlr-479 (R) -I-5 II-3 11-69 Tlr-480 (R) -I-5 II-3 11-70 Tlr-481 (R) -I-5 II-3 11-71 Tlr-482 (R) -I-5 II-3 11-72 Tlr-483 (R) -I-5 II-3 11-74 Tlr-484 (R) -I-5 II-3 11-76 Tlr-485 (R) -I-5 II-3 11-78 Tlr-486 (R) -I-5 II-3 11-84 Tlr-487 (R) -I-5 II-3 11-85 Tlr-488 (R) -I-5 II-3 11-86 Tlr-489 (R) -I-5 II-3 11-92 Tlr-490 (R) -I-5 II-5 II-6 Tlr-491 (R) -I-5 II-5 II-7 Tlr-492 (R) -I-5 II-5 II-8 Tlr-493 (R) -I-5 II-5 II-11 Tlr-494 (R) -I-5 II-5 11-16 Tlr-495 (R) -I-5 II-5 11-21 Tlr-496 (R) -I-5 II-5 11-26 Tlr-497 (R) -I-5 II-5 11-32 Tlr-498 (R) -I-5 II-5 11-33 Tlr-499 (R) -I-5 II-5 11-37 Tlr-500 (R) -I-5 II-5 11-39 Tlr-501 (R) -I-5 II-5 11-42 Tlr-502 (R) -I-5 II-5 11-44 Tlr-503 (R) -I-5 II-5 11-50 Tlr-504 (R) -I-5 II-5 11-53 Tlr-505 (R) -I-5 II-5 11-60 Tlr-506 (R) -I-5 II-5 11-62 Tlr-507 (R) -I-5 II-5 11-66 Tlr-508 (R) -I-5 II-5 11-69 Tlr-509 (R) -I-5 II-5 11-70 Tlr-510 (R) -I-5 II-5 11-71

- 157 030875

Tlr-511 (R) -I-5 II-5 11-72 Tlr-512 (R) -I-5 II-5 11-74 Tlr-513 (R) -I-5 II-5 11-76 Tlr-514 (R) -I-5 II-5 11-78 Tlr-515 (R) -I-5 II-5 11-84 Tlr-516 (R) -I-5 II-5 11-85 Tlr-517 (R) -I-5 II-5 11-86 Tlr-518 (R) -I-5 II-5 11-92 Tlr-519 (R) -I-5 II-6 II-7 Tlr-520 (R) -I-5 II-6 II-8 Tlr-521 (R) -I-5 II-6 II-11 Tlr-522 (R) -I-5 II-6 11-16 Tlr-523 (R) -I-5 II-6 11-21 Tlr-524 (R) -I-5 II-6 11-26 Tlr-525 (R) -I-5 II-6 11-32 Tlr-526 (R) -I-5 II-6 11-33 Tlr-527 (R) -I-5 II-6 11-37 Tlr-528 (R) -I-5 II-6 11-39 Tlr-529 (R) -I-5 II-6 11-42 Tlr-530 (R) -I-5 II-6 11-44 Tlr-531 (R) -I-5 II-6 11-50 Tlr-532 (R) -I-5 II-6 11-53 Tlr-533 (R) -I-5 II-6 11-60 Tlr-534 (R) -I-5 II-6 11-62 Tlr-535 (R) -I-5 II-6 11-66 Tlr-536 (R) -I-5 II-6 11-69 Tlr-537 (R) -I-5 II-6 11-70 Tlr-538 (R) -I-5 II-6 11-71 Tlr-539 (R) -I-5 II-6 11-72 Tlr-540 (R) -I-5 II-6 11-74 Tlr-541 (R) -I-5 II-6 11-76 Tlr-542 (R) -I-5 II-6 11-78 Tlr-543 (R) -I-5 II-6 11-84 Tlr-544 (R) -I-5 II-6 11-85 Tlr-545 (R) -I-5 II-6 11-86 Tlr-546 (R) -I-5 II-6 11-92 Tlr-547 (R) -I-5 II-7 II-8 Tlr-548 (R) -I-5 II-7 II-11 Tlr-549 (R) -I-5 II-7 11-16 Tlr-550 (R) -I-5 II-7 11-21 Tlr-551 (R) -I-5 II-7 11-26 Tlr-552 (R) -I-5 II-7 11-32 Tlr-553 (R) -I-5 II-7 11-33 Tlr-554 (R) -I-5 II-7 11-37 Tlr-555 (R) -I-5 II-7 11-39 Tlr-556 (R) -I-5 II-7 11-42

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Tlr-557 (R) -I-5 II-7 11-44 Tlr-558 (R) -I-5 II-7 11-50 Tlr-559 (R) -I-5 II-7 11-53 Tlr-560 (R) -I-5 II-7 11-60 Tlr-561 (R) -I-5 II-7 11-62 Tlr-562 (R) -I-5 II-7 11-66 Tlr-563 (R) -I-5 II-7 11-69 Tlr-564 (R) -I-5 II-7 11-70 Tlr-565 (R) -I-5 II-7 11-71 Tlr-566 (R) -I-5 II-7 11-72 Tlr-567 (R) -I-5 II-7 11-74 Tlr-568 (R) -I-5 II-7 11-76 Tlr-569 (R) -I-5 II-7 11-78 Tlr-570 (R) -I-5 II-7 11-84 Tlr-571 (R) -I-5 II-7 11-85 Tlr-572 (R) -I-5 II-7 11-86 Tlr-573 (R) -I-5 II-7 11-92 Tlr-574 (R) -I-5 II-8 II-11 Tlr-575 (R) -I-5 II-8 11-16 Tlr-576 (R) -I-5 II-8 11-21 Tlr-577 (R) -I-5 II-8 11-26 Tlr-578 (R) -I-5 II-8 11-32 Tlr-579 (R) -I-5 II-8 11-33 Tlr-580 (R) -I-5 II-8 11-37 Tlr-581 (R) -I-5 II-8 11-39 Tlr-582 (R) -I-5 II-8 11-42 Tlr-583 (R) -I-5 II-8 11-44 Tlr-584 (R) -I-5 II-8 11-50 Tlr-585 (R) -I-5 II-8 11-53 Tlr-586 (R) -I-5 II-8 11-60 Tlr-587 (R) -I-5 II-8 11-62 Tlr-588 (R) -I-5 II-8 11-66 Tlr-589 (R) -I-5 II-8 11-69 Tlr-590 (R) -I-5 II-8 11-70 Tlr-591 (R) -I-5 II-8 11-71 Tlr-592 (R) -I-5 II-8 11-72 Tlr-593 (R) -I-5 II-8 11-74 Tlr-594 (R) -I-5 II-8 11-76 Tlr-595 (R) -I-5 II-8 11-78 Tlr-596 (R) -I-5 II-8 11-84 Tlr-597 (R) -I-5 II-8 11-85 Tlr-598 (R) -I-5 II-8 11-86 Tlr-599 (R) -I-5 II-8 11-92 Tlr-600 (R) -I-5 II-11 11-16 Tlr-601 (R) -I-5 II-11 11-21 Tlr-602 (R) -I-5 II-11 11-26

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Tlr-603 (R) -I-5 II-11 11-32 Tlr-604 (R) -I-5 II-11 11-33 Tlr-605 (R) -I-5 II-11 11-37 Tlr-606 (R) -I-5 II-11 11-39 Tlr-607 (R) -I-5 II-11 11-42 Tlr-608 (R) -I-5 II-11 11-44 Tlr-609 (R) -I-5 II-11 11-50 Tlr-610 (R) -I-5 II-11 11-53 Tlr-611 (R) -I-5 II-11 11-60 Tlr-612 (R) -I-5 II-11 11-62 Tlr-613 (R) -I-5 II-11 11-66 Tlr-614 (R) -I-5 II-11 11-69 Tlr-615 (R) -I-5 II-11 11-70 Tlr-616 (R) -I-5 II-11 11-71 Tlr-617 (R) -I-5 II-11 11-72 Tlr-618 (R) -I-5 II-11 11-74 Tlr-619 (R) -I-5 II-11 11-76 Tlr-620 (R) -I-5 II-11 11-78 Tlr-621 (R) -I-5 II-11 11-84 Tlr-622 (R) -I-5 II-11 11-85 Tlr-623 (R) -I-5 II-11 11-86 Tlr-624 (R) -I-5 II-11 11-92 Tlr-625 (R) -I-5 11-16 11-21 Tlr-626 (R) -I-5 11-16 11-26 Tlr-627 (R) -I-5 11-16 11-32 Tlr-628 (R) -I-5 11-16 11-33 Tlr-629 (R) -I-5 11-16 11-37 Tlr-630 (R) -I-5 11-16 11-39 Tlr-631 (R) -I-5 11-16 11-42 Tlr-632 (R) -I-5 11-16 11-44 Tlr-633 (R) -I-5 11-16 11-50 Tlr-634 (R) -I-5 11-16 11-53 Tlr-635 (R) -I-5 11-16 11-60 Tlr-636 (R) -I-5 11-16 11-62 Tlr-637 (R) -I-5 11-16 11-66 Tlr-638 (R) -I-5 11-16 11-69 Tlr-639 (R) -I-5 11-16 11-70 Tlr-640 (R) -I-5 11-16 11-71 Tlr-641 (R) -I-5 11-16 11-72 Tlr-642 (R) -I-5 11-16 11-74 Tlr-643 (R) -I-5 11-16 11-76 Tlr-644 (R) -I-5 11-16 11-78 Tlr-645 (R) -I-5 11-16 11-84 Tlr-646 (R) -I-5 11-16 11-85 Tlr-647 (R) -I-5 11-16 11-86 Tlr-648 (R) -I-5 11-16 11-92

- 160 030875

Tlr-649 (R) -I-5 11-21 11-26 Tlr-650 (R) -I-5 11-21 11-32 Tlr-651 (R) -I-5 11-21 11-33 Tlr-652 (R) -I-5 11-21 11-37 Tlr-653 (R) -I-5 11-21 11-39 Tlr-654 (R) -I-5 11-21 11-42 Tlr-655 (R) -I-5 11-21 11-44 Tlr-656 (R) -I-5 11-21 11-50 Tlr-657 (R) -I-5 11-21 11-53 Tlr-658 (R) -I-5 11-21 11-60 Tlr-659 (R) -I-5 11-21 11-62 Tlr-660 (R) -I-5 11-21 11-66 Tlr-661 (R) -I-5 11-21 11-69 Tlr-662 (R) -I-5 11-21 11-70 Tlr-663 (R) -I-5 11-21 11-71 Tlr-664 (R) -I-5 11-21 11-72 Tlr-665 (R) -I-5 11-21 11-74 Tlr-666 (R) -I-5 11-21 11-76 Tlr-667 (R) -I-5 11-21 11-78 Tlr-668 (R) -I-5 11-21 11-84 Tlr-669 (R) -I-5 11-21 11-85 Tlr-670 (R) -I-5 11-21 11-86 Tlr-671 (R) -I-5 11-21 11-92 Tlr-672 (R) -I-5 11-26 11-32 Tlr-673 (R) -I-5 11-26 11-33 Tlr-674 (R) -I-5 11-26 11-37 Tlr-675 (R) -I-5 11-26 11-39 Tlr-676 (R) -I-5 11-26 11-42 Tlr-677 (R) -I-5 11-26 11-44 Tlr-678 (R) -I-5 11-26 11-50 Tlr-679 (R) -I-5 11-26 11-53 Tlr-680 (R) -I-5 11-26 11-60 Tlr-681 (R) -I-5 11-26 11-62 Tlr-682 (R) -I-5 11-26 11-66 Tlr-683 (R) -I-5 11-26 11-69 Tlr-684 (R) -I-5 11-26 11-70 Tlr-685 (R) -I-5 11-26 11-71 Tlr-686 (R) -I-5 11-26 11-72 Tlr-687 (R) -I-5 11-26 11-74 Tlr-688 (R) -I-5 11-26 11-76 Tlr-689 (R) -I-5 11-26 11-78 Tlr-690 (R) -I-5 11-26 11-84 Tlr-691 (R) -I-5 11-26 11-85 Tlr-692 (R) -I-5 11-26 11-86 Tlr-693 (R) -I-5 11-26 11-92 Tlr-694 (R) -I-5 11-32 11-33

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Tlr-695 (R) -I-5 11-32 11-37 Tlr-696 (R) -I-5 11-32 11-39 Tlr-697 (R) -I-5 11-32 11-42 Tlr-698 (R) -I-5 11-32 11-44 Tlr-699 (R) -I-5 11-32 11-50 Tlr-700 (R) -I-5 11-32 11-53 Tlr-701 (R) -I-5 11-32 11-60 Tlr-702 (R) -I-5 11-32 11-62 Tlr-703 (R) -I-5 11-32 11-66 Tlr-704 (R) -I-5 11-32 11-69 Tlr-705 (R) -I-5 11-32 11-70 Tlr-706 (R) -I-5 11-32 11-71 Tlr-707 (R) -I-5 11-32 11-72 Tlr-708 (R) -I-5 11-32 11-74 Tlr-709 (R) -I-5 11-32 11-76 Tlr-710 (R) -I-5 11-32 11-78 Tlr-711 (R) -I-5 11-32 11-84 Tlr-712 (R) -I-5 11-32 11-85 Tlr-713 (R) -I-5 11-32 11-86 Tlr-714 (R) -I-5 11-32 11-92 Tlr-715 (R) -I-5 11-33 11-37 Tlr-716 (R) -I-5 11-33 11-39 Tlr-717 (R) -I-5 11-33 11-42 Tlr-718 (R) -I-5 11-33 11-44 Tlr-719 (R) -I-5 11-33 11-50 Tlr-720 (R) -I-5 11-33 11-53 Tlr-721 (R) -I-5 11-33 11-60 Tlr-722 (R) -I-5 11-33 11-62 Tlr-723 (R) -I-5 11-33 11-66 Tlr-724 (R) -I-5 11-33 11-69 Tlr-725 (R) -I-5 11-33 11-70 Tlr-726 (R) -I-5 11-33 11-71 Tlr-727 (R) -I-5 11-33 11-72 Tlr-728 (R) -I-5 11-33 11-74 Tlr-729 (R) -I-5 11-33 11-76 Tlr-730 (R) -I-5 11-33 11-78 Tlr-731 (R) -I-5 11-33 11-84 Tlr-732 (R) -I-5 11-33 11-85 Tlr-733 (R) -I-5 11-33 11-86 Tlr-734 (R) -I-5 11-33 11-92 Tlr-735 (R) -I-5 11-37 11-39 Tlr-736 (R) -I-5 11-37 11-42 Tlr-737 (R) -I-5 11-37 11-44 Tlr-738 (R) -I-5 11-37 11-50 Tlr-739 (R) -I-5 11-37 11-53 Tlr-740 (R) -I-5 11-37 11-60

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Tlr-741 (R) -I-5 11-37 11-62 Tlr-742 (R) -I-5 11-37 11-66 Tlr-743 (R) -I-5 11-37 11-69 Tlr-744 (R) -I-5 11-37 11-70 Tlr-745 (R) -I-5 11-37 11-71 Tlr-746 (R) -I-5 11-37 11-72 Tlr-747 (R) -I-5 11-37 11-74 Tlr-748 (R) -I-5 11-37 11-76 Tlr-749 (R) -I-5 11-37 11-78 Tlr-750 (R) -I-5 11-37 11-84 Tlr-751 (R) -I-5 11-37 11-85 Tlr-752 (R) -I-5 11-37 11-86 Tlr-753 (R) -I-5 11-37 11-92 Tlr-754 (R) -I-5 11-39 11-42 Tlr-755 (R) -I-5 11-39 11-44 Tlr-756 (R) -I-5 11-39 11-50 Tlr-757 (R) -I-5 11-39 11-53 Tlr-758 (R) -I-5 11-39 11-60 Tlr-759 (R) -I-5 11-39 11-62 Tlr-760 (R) -I-5 11-39 11-66 Tlr-761 (R) -I-5 11-39 11-69 Tlr-762 (R) -I-5 11-39 11-70 Tlr-763 (R) -I-5 11-39 11-71 Tlr-764 (R) -I-5 11-39 11-72 Tlr-765 (R) -I-5 11-39 11-74 Tlr-766 (R) -I-5 11-39 11-76 Tlr-767 (R) -I-5 11-39 11-78 Tlr-768 (R) -I-5 11-39 11-84 Tlr-769 (R) -I-5 11-39 11-85 Tlr-770 (R) -I-5 11-39 11-86 Tlr-771 (R) -I-5 11-39 11-92 Tlr-772 (R) -I-5 11-42 11-44 Tlr-773 (R) -I-5 11-42 11-50 Tlr-774 (R) -I-5 11-42 11-53 Tlr-775 (R) -I-5 11-42 11-60 Tlr-776 (R) -I-5 11-42 11-62 Tlr-777 (R) -I-5 11-42 11-66 Tlr-778 (R) -I-5 11-42 11-69 Tlr-779 (R) -I-5 11-42 11-70 Tlr-780 (R) -I-5 11-42 11-71 Tlr-781 (R) -I-5 11-42 11-72 Tlr-782 (R) -I-5 11-42 11-74 Tlr-783 (R) -I-5 11-42 11-76 Tlr-784 (R) -I-5 11-42 11-78 Tlr-785 (R) -I-5 11-42 11-84 Tlr-786 (R) -I-5 11-42 11-85

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Tlr-787 (R) -I-5 11-42 11-86 Tlr-788 (R) -I-5 11-42 11-92 Tlr-789 (R) -I-5 11-44 11-50 Tlr-790 (R) -I-5 11-44 11-53 Tlr-791 (R) -I-5 11-44 11-60 Tlr-792 (R) -I-5 11-44 11-62 Tlr-793 (R) -I-5 11-44 11-66 Tlr-794 (R) -I-5 11-44 11-69 Tlr-795 (R) -I-5 11-44 11-70 Tlr-796 (R) -I-5 11-44 11-71 Tlr-797 (R) -I-5 11-44 11-72 Tlr-798 (R) -I-5 11-44 11-74 Tlr-799 (R) -I-5 11-44 11-76 Tlr-800 (R) -I-5 11-44 11-78 Tlr-801 (R) -I-5 11-44 11-84 Tlr-802 (R) -I-5 11-44 11-85 Tlr-803 (R) -I-5 11-44 11-86 Tlr-804 (R) -I-5 11-44 11-92 Tlr-805 (R) -I-5 11-50 11-53 Tlr-806 (R) -I-5 11-50 11-60 Tlr-807 (R) -I-5 11-50 11-62 Tlr-808 (R) -I-5 11-50 11-66 Tlr-809 (R) -I-5 11-50 11-69 Tlr-810 (R) -I-5 11-50 11-70 Tlr-811 (R) -I-5 11-50 11-71 Tlr-812 (R) -I-5 11-50 11-72 Tlr-813 (R) -I-5 11-50 11-74 Tlr-814 (R) -I-5 11-50 11-76 Tlr-815 (R) -I-5 11-50 11-78 Tlr-816 (R) -I-5 11-50 11-84 Tlr-817 (R) -I-5 11-50 11-85 Tlr-818 (R) -I-5 11-50 11-86 Tlr-819 (R) -I-5 11-50 11-92 Tlr-820 (R) -I-5 11-53 11-60 Tlr-821 (R) -I-5 11-53 11-62 Tlr-822 (R) -I-5 11-53 11-66 Tlr-823 (R) -I-5 11-53 11-69 Tlr-824 (R) -I-5 11-53 11-70 Tlr-825 (R) -I-5 11-53 11-71 Tlr-826 (R) -I-5 11-53 11-72 Tlr-827 (R) -I-5 11-53 11-74 Tlr-828 (R) -I-5 11-53 11-76 Tlr-829 (R) -I-5 11-53 11-78 Tlr-830 (R) -I-5 11-53 11-84 Tlr-831 (R) -I-5 11-53 11-85 Tlr-832 (R) -I-5 11-53 11-86

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Tlr-833 (R) -I-5 11-53 11-92 Tlr-834 (R) -I-5 11-60 11-62 Tlr-835 (R) -I-5 11-60 11-66 Tlr-836 (R) -I-5 11-60 11-69 Tlr-837 (R) -I-5 11-60 11-70 Tlr-838 (R) -I-5 11-60 11-71 Tlr-839 (R) -I-5 11-60 11-72 Tlr-840 (R) -I-5 11-60 11-74 Tlr-841 (R) -I-5 11-60 11-76 Tlr-842 (R) -I-5 11-60 11-78 Tlr-843 (R) -I-5 11-60 11-84 Tlr-844 (R) -I-5 11-60 11-85 Tlr-845 (R) -I-5 11-60 11-86 Tlr-846 (R) -I-5 11-60 11-92 Tlr-847 (R) -I-5 11-62 11-66 Tlr-848 (R) -I-5 11-62 11-69 Tlr-849 (R) -I-5 11-62 11-70 Tlr-850 (R) -I-5 11-62 11-71 Tlr-851 (R) -I-5 11-62 11-72 Tlr-852 (R) -I-5 11-62 11-74 Tlr-853 (R) -I-5 11-62 11-76 Tlr-854 (R) -I-5 11-62 11-78 Tlr-855 (R) -I-5 11-62 11-84 Tlr-856 (R) -I-5 11-62 11-85 Tlr-857 (R) -I-5 11-62 11-86 Tlr-858 (R) -I-5 11-62 11-92 Tlr-859 (R) -I-5 11-66 11-69 Tlr-860 (R) -I-5 11-66 11-70 Tlr-861 (R) -I-5 11-66 11-71 Tlr-862 (R) -I-5 11-66 11-72 Tlr-863 (R) -I-5 11-66 11-74 Tlr-864 (R) -I-5 11-66 11-76 Tlr-865 (R) -I-5 11-66 11-78 Tlr-866 (R) -I-5 11-66 11-84 Tlr-867 (R) -I-5 11-66 11-85 Tlr-868 (R) -I-5 11-66 11-86 Tlr-869 (R) -I-5 11-66 11-92 Tlr-870 (R) -I-5 11-69 11-70 Tlr-871 (R) -I-5 11-69 11-71 Tlr-872 (R) -I-5 11-69 11-72 Tlr-873 (R) -I-5 11-69 11-74 Tlr-874 (R) -I-5 11-69 11-76 Tlr-875 (R) -I-5 11-69 11-78 Tlr-876 (R) -I-5 11-69 11-84 Tlr-877 (R) -I-5 11-69 11-85 Tlr-878 (R) -I-5 11-69 11-86

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Tlr-879 (R) -I-5 11-69 11-92 Tlr-880 (R) -I-5 11-70 11-71 Tlr-881 (R) -I-5 11-70 11-72 Tlr-882 (R) -I-5 11-70 11-74 Tlr-883 (R) -I-5 11-70 11-76 Tlr-884 (R) -I-5 11-70 11-78 Tlr-885 (R) -I-5 11-70 11-84 Tlr-886 (R) -I-5 11-70 11-85 Tlr-887 (R) -I-5 11-70 11-86 Tlr-888 (R) -I-5 11-70 11-92 Tlr-889 (R) -I-5 11-71 11-72 Tlr-890 (R) -I-5 11-71 11-74 Tlr-891 (R) -I-5 11-71 11-76 Tlr-892 (R) -I-5 11-71 11-78 Tlr-893 (R) -I-5 11-71 11-84 Tlr-894 (R) -I-5 11-71 11-85 Tlr-895 (R) -I-5 11-71 11-86 Tlr-896 (R) -I-5 11-71 11-92 Tlr-897 (R) -I-5 11-72 11-74 Tlr-898 (R) -I-5 11-74 11-76 Tlr-899 (R) -I-5 11-74 11-78 Tlr-900 (R) -I-5 11-74 11-84 Tlr-901 (R) -I-5 11-74 11-85 Tlr-902 (R) -I-5 11-74 11-86 Tlr-903 (R) -I-5 11-74 11-92 Tlr-904 (R) -I-5 11-76 11-78 Tlr-905 (R) -I-5 11-76 11-84 Tlr-906 (R) -I-5 11-76 11-85 Tlr-907 (R) -I-5 11-76 11-86 Tlr-908 (R) -I-5 11-76 11-92 Tlr-909 (R) -I-5 11-78 11-84 Tlr-910 (R) -I-5 11-78 11-85 Tlr-911 (R) -I-5 11-78 11-86 Tlr-912 (R) -I-5 11-78 11-92 Tlr-913 (R) -I-5 11-84 11-85 Tlr-914 (R) -I-5 11-84 11-86 Tlr-915 (R) -I-5 11-84 11-92 Tlr-916 (R) -I-5 11-85 11-86 Tlr-917 (R) -I-5 11-85 11-92 Tlr-918 (R) -I-5 11-86 11-92 Tlr-919 (R) -I-3 II-3 II-5 Tlr-920 (R) -I-3 II-3 II-6 Tlr-921 (R) -I-3 II-3 II-7 Tlr-922 (R) -I-3 II-3 II-8 Tlr-923 (R) -I-3 II-3 II-11 Tlr-924 (R) -I-3 II-3 11-16

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Tlr-925 (R) -I-3 II-3 11-21 Tlr-926 (R) -I-3 II-3 11-26 Tlr-927 (R) -I-3 II-3 11-32 Tlr-928 (R) -I-3 II-3 11-33 Tlr-929 (R) -I-3 II-3 11-37 Tlr-930 (R) -I-3 II-3 11-39 Tlr-931 (R) -I-3 II-3 11-42 Tlr-932 (R) -I-3 II-3 11-44 Tlr-933 (R) -I-3 II-3 11-50 Tlr-934 (R) -I-3 II-3 11-53 Tlr-935 (R) -I-3 II-3 11-60 Tlr-936 (R) -I-3 II-3 11-62 Tlr-937 (R) -I-3 II-3 11-66 Tlr-938 (R) -I-3 II-3 11-69 Tlr-939 (R) -I-3 II-3 11-70 Tlr-940 (R) -I-3 II-3 11-71 Tlr-941 (R) -I-3 II-3 11-72 Tlr-942 (R) -I-3 II-3 11-74 Tlr-943 (R) -I-3 II-3 11-76 Tlr-944 (R) -I-3 II-3 11-78 Tlr-945 (R) -I-3 II-3 11-84 Tlr-946 (R) -I-3 II-3 11-85 Tlr-947 (R) -I-3 II-3 11-86 Tlr-948 (R) -I-3 II-3 11-92 Tlr-949 (R) -I-3 II-5 II-6 Tlr-950 (R) -I-3 II-5 II-7 Tlr-951 (R) -I-3 II-5 II-8 Tlr-952 (R) -I-3 II-5 II-11 Tlr-953 (R) -I-3 II-5 11-16 Tlr-954 (R) -I-3 II-5 11-21 Tlr-955 (R) -I-3 II-5 11-26 Tlr-956 (R) -I-3 II-5 11-32 Tlr-957 (R) -I-3 II-5 11-33 Tlr-958 (R) -I-3 II-5 11-37 Tlr-959 (R) -I-3 II-5 11-39 Tlr-960 (R) -I-3 II-5 11-42 Tlr-961 (R) -I-3 II-5 11-44 Tlr-962 (R) -I-3 II-5 11-50 Tlr-963 (R) -I-3 II-5 11-53 Tlr-964 (R) -I-3 II-5 11-60 Tlr-965 (R) -I-3 II-5 11-62 Tlr-966 (R) -I-3 II-5 11-66 Tlr-967 (R) -I-3 II-5 11-69 Tlr-968 (R) -I-3 II-5 11-70 Tlr-969 (R) -I-3 II-5 11-71 Tlr-970 (R) -I-3 II-5 11-72

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Tlr-971 (R) -I-3 II-5 11-74 Tlr-972 (R) -I-3 II-5 11-76 Tlr-973 (R) -I-3 II-5 11-78 Tlr-974 (R) -I-3 II-5 11-84 Tlr-975 (R) -I-3 II-5 11-85 Tlr-976 (R) -I-3 II-5 11-86 Tlr-977 (R) -I-3 II-5 11-92 Tlr-978 (R) -I-3 II-6 II-7 Tlr-979 (R) -I-3 II-6 II-8 Tlr-980 (R) -I-3 II-6 II-11 Tlr-981 (R) -I-3 II-6 11-16 Tlr-982 (R) -I-3 II-6 11-21 Tlr-983 (R) -I-3 II-6 11-26 Tlr-984 (R) -I-3 II-6 11-32 Tlr-985 (R) -I-3 II-6 11-33 Tlr-986 (R) -I-3 II-6 11-37 Tlr-987 (R) -I-3 II-6 11-39 Tlr-988 (R) -I-3 II-6 11-42 Tlr-989 (R) -I-3 II-6 11-44 Tlr-990 (R) -I-3 II-6 11-50 Tlr-991 (R) -I-3 II-6 11-53 Tlr-992 (R) -I-3 II-6 11-60 Tlr-993 (R) -I-3 II-6 11-62 Tlr-994 (R) -I-3 II-6 11-66 Tlr-995 (R) -I-3 II-6 11-69 Tlr-996 (R) -I-3 II-6 11-70 Tlr-997 (R) -I-3 II-6 11-71 Tlr-998 (R) -I-3 II-6 11-72 Tlr-999 (R) -I-3 II-6 11-74 Tlr-1000 (R) -I-3 II-6 11-76 Tlr-1001 (R) -I-3 II-6 11-78 Tlr-1002 (R) -I-3 II-6 11-84 Tlr-1003 (R) -I-3 II-6 11-85 Tlr-1004 (R) -I-3 II-6 11-86 Tlr-1005 (R) -I-3 II-6 11-92 Tlr-1006 (R) -I-3 II-7 II-8 Tlr-1007 (R) -I-3 II-7 II-11 Tlr-1008 (R) -I-3 II-7 11-16 Tlr-1009 (R) -I-3 II-7 11-21 Tlr-1010 (R) -I-3 II-7 11-26 Tlr-1011 (R) -I-3 II-7 11-32 Tlr-1012 (R) -I-3 II-7 11-33 Tlr-1013 (R) -I-3 II-7 11-37 Tlr-1014 (R) -I-3 II-7 11-39 Tlr-1015 (R) -I-3 II-7 11-42 Tlr-1016 (R) -I-3 II-7 11-44

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Tlr-1017 (R) -I-3 II-7 11-50 Tlr-1018 (R) -I-3 II-7 11-53 Tlr-1019 (R) -I-3 II-7 11-60 Tlr-1020 (R) -I-3 II-7 11-62 Tlr-1021 (R) -I-3 II-7 11-66 Tlr-1022 (R) -I-3 II-7 11-69 Tlr-1023 (R) -I-3 II-7 11-70 Tlr-1024 (R) -I-3 II-7 11-71 Tlr-1025 (R) -I-3 II-7 11-72 Tlr-1026 (R) -I-3 II-7 11-74 Tlr-1027 (R) -I-3 II-7 11-76 Tlr-1028 (R) -I-3 II-7 11-78 Tlr-1029 (R) -I-3 II-7 11-84 Tlr-1030 (R) -I-3 II-7 11-85 Tlr-1031 (R) -I-3 II-7 11-86 Tlr-1032 (R) -I-3 II-7 11-92 Tlr-1033 (R) -I-3 II-8 II-11 Tlr-1034 (R) -I-3 II-8 11-16 Tlr-1035 (R) -I-3 II-8 11-21 Tlr-1036 (R) -I-3 II-8 11-26 Tlr-1037 (R) -I-3 II-8 11-32 Tlr-1038 (R) -I-3 II-8 11-33 Tlr-1039 (R) -I-3 II-8 11-37 Tlr-1040 (R) -I-3 II-8 11-39 Tlr-1041 (R) -I-3 II-8 11-42 Tlr-1042 (R) -I-3 II-8 11-44 Tlr-1043 (R) -I-3 II-8 11-50 Tlr-1044 (R) -I-3 II-8 11-53 Tlr-1045 (R) -I-3 II-8 11-60 Tlr-1046 (R) -I-3 II-8 11-62 Tlr-1047 (R) -I-3 II-8 11-66 Tlr-1048 (R) -I-3 II-8 11-69 Tlr-1049 (R) -I-3 II-8 11-70 Tlr-1050 (R) -I-3 II-8 11-71 Tlr-1051 (R) -I-3 II-8 11-72 Tlr-1052 (R) -I-3 II-8 11-74 Tlr-1053 (R) -I-3 II-8 11-76 Tlr-1054 (R) -I-3 II-8 11-78 Tlr-1055 (R) -I-3 II-8 11-84 Tlr-1056 (R) -I-3 II-8 11-85 Tlr-1057 (R) -I-3 II-8 11-86 Tlr-1058 (R) -I-3 II-8 11-92 Tlr-1059 (R) -I-3 II-11 11-16 Tlr-1060 (R) -I-3 II-11 11-21 Tlr-1061 (R) -I-3 II-11 11-26 Tlr-1062 (R) -I-3 II-11 11-32

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Tlr-1063 (R) -I-3 II-11 11-33 Tlr-1064 (R) -I-3 II-11 11-37 Tlr-1065 (R) -I-3 II-11 11-39 Tlr-1066 (R) -I-3 II-11 11-42 Tlr-1067 (R) -I-3 II-11 11-44 Tlr-1068 (R) -I-3 II-11 11-50 Tlr-1069 (R) -I-3 II-11 11-53 Tlr-1070 (R) -I-3 II-11 11-60 Tlr-1071 (R) -I-3 II-11 11-62 Tlr-1072 (R) -I-3 II-11 11-66 Tlr-1073 (R) -I-3 II-11 11-69 Tlr-1074 (R) -I-3 II-11 11-70 Tlr-1075 (R) -I-3 II-11 11-71 Tlr-1076 (R) -I-3 II-11 11-72 Tlr-1077 (R) -I-3 II-11 11-74 Tlr-1078 (R) -I-3 II-11 11-76 Tlr-1079 (R) -I-3 II-11 11-78 Tlr 1080 (R) -I-3 II-11 11-84 Tlr-1081 (R) -I-3 II-11 11-85 Tlr-1082 (R) -I-3 II-11 11-86 Tlr-1083 (R) -I-3 II-11 11-92 Tlr-1084 (R) -I-3 11-16 11-21 Tlr-1085 (R) -I-3 11-16 11-26 Tlr-1086 (R) -I-3 11-16 11-32 Tlr-1087 (R) -I-3 11-16 11-33 Tlr-1088 (R) -I-3 11-16 11-37 Tlr-1089 (R) -I-3 11-16 11-39 Tlr-1090 (R) -I-3 11-16 11-42 Tlr-1091 (R) -I-3 11-16 11-44 Tlr-1092 (R) -I-3 11-16 11-50 Tlr-1093 (R) -I-3 11-16 11-53 Tlr-1094 (R) -I-3 11-16 11-60 Tlr-1095 (R) -I-3 11-16 11-62 Tlr-1096 (R) -I-3 11-16 11-66 Tlr-1097 (R) -I-3 11-16 11-69 Tlr-1098 (R) -I-3 11-16 11-70 Tlr-1099 (R) -I-3 11-16 11-71 Tlr-1100 (R) -I-3 11-16 11-72 Tlr-1101 (R) -I-3 11-16 11-74 Tlr-1102 (R) -I-3 11-16 11-76 Tlr-1103 (R) -I-3 11-16 11-78 Tlr-1104 (R) -I-3 11-16 11-84 Tlr-1105 (R) -I-3 11-16 11-85 Tlr-1106 (R) -I-3 11-16 11-86 Tlr-1107 (R) -I-3 11-16 11-92 Tlr-1108 (R) -I-3 11-21 11-26

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Tlr-1109 (R) -I-3 11-21 11-32 Tlr-1110 (R) -I-3 11-21 11-33 Tlr-1111 (R) -I-3 11-21 11-37 Tlr-1112 (R) -I-3 11-21 11-39 Tlr-1113 (R) -I-3 11-21 11-42 Tlr-1114 (R) -I-3 11-21 11-44 Tlr-1115 (R) -I-3 11-21 11-50 Tlr-1116 (R) -I-3 11-21 11-53 Tlr-1117 (R) -I-3 11-21 11-60 Tlr-1118 (R) -I-3 11-21 11-62 Tlr-1119 (R) -I-3 11-21 11-66 Tlr-1120 (R) -I-3 11-21 11-69 Tlr-1121 (R) -I-3 11-21 11-70 Tlr-1122 (R) -I-3 11-21 11-71 Tlr-1123 (R) -I-3 11-21 11-72 Tlr-1124 (R) -I-3 11-21 11-74 Tlr-1125 (R) -I-3 11-21 11-76 Tlr-1126 (R) -I-3 11-21 11-78 Tlr-1127 (R) -I-3 11-21 11-84 Tlr-1128 (R) -I-3 11-21 11-85 Tlr-1129 (R) -I-3 11-21 11-86 Tlr-1130 (R) -I-3 11-21 11-92 Tlr-1131 (R) -I-3 11-26 11-32 Tlr-1132 (R) -I-3 11-26 11-33 Tlr-1133 (R) -I-3 11-26 11-37 Tlr-1134 (R) -I-3 11-26 11-39 Tlr-1135 (R) -I-3 11-26 11-42 Tlr-1136 (R) -I-3 11-26 11-44 Tlr-1137 (R) -I-3 11-26 11-50 Tlr-1138 (R) -I-3 11-26 11-53 Tlr-1139 (R) -I-3 11-26 11-60 Tlr-1140 (R) -I-3 11-26 11-62 Tlr-1141 (R) -I-3 11-26 11-66 Tlr-1142 (R) -I-3 11-26 11-69 Tlr-1143 (R) -I-3 11-26 11-70 Tlr-1144 (R) -I-3 11-26 11-71 Tlr-1145 (R) -I-3 11-26 11-72 Tlr-1146 (R) -I-3 11-26 11-74 Tlr-1147 (R) -I-3 11-26 11-76 Tlr-1148 (R) -I-3 11-26 11-78 Tlr-1149 (R) -I-3 11-26 11-84 Tlr-1150 (R) -I-3 11-26 11-85 Tlr-1151 (R) -I-3 11-26 11-86 Tlr-1152 (R) -I-3 11-26 11-92 Tlr-1153 (R) -I-3 11-32 11-33 Tlr-1154 (R) -I-3 11-32 11-37

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Tlr-1155 (R) -I-3 11-32 11-39 Tlr-1156 (R) -I-3 11-32 11-42 Tlr-1157 (R) -I-3 11-32 11-44 Tlr-1158 (R) -I-3 11-32 11-50 Tlr-1159 (R) -I-3 11-32 11-53 Tlr-1160 (R) -I-3 11-32 11-60 Tlr-1161 (R) -I-3 11-32 11-62 Tlr-1162 (R) -I-3 11-32 11-66 Tlr-1163 (R) -I-3 11-32 11-69 Tlr-1164 (R) -I-3 11-32 11-70 Tlr-1165 (R) -I-3 11-32 11-71 Tlr-1166 (R) -I-3 11-32 11-72 Tlr-1167 (R) -I-3 11-32 11-74 Tlr-1168 (R) -I-3 11-32 11-76 Tlr-1169 (R) -I-3 11-32 11-78 Tlr-1170 (R) -I-3 11-32 11-84 Tlr-1171 (R) -I-3 11-32 11-85 Tlr-1172 (R) -I-3 11-32 11-86 Tlr-1173 (R) -I-3 11-32 11-92 Tlr-1174 (R) -I-3 11-33 11-37 Tlr-1175 (R) -I-3 11-33 11-39 Tlr-1176 (R) -I-3 11-33 11-42 Tlr-1177 (R) -I-3 11-33 11-44 Tlr-1178 (R) -I-3 11-33 11-50 Tlr-1179 (R) -I-3 11-33 11-53 Tlr-1180 (R) -I-3 11-33 11-60 Tlr-1181 (R) -I-3 11-33 11-62 Tlr-1182 (R) -I-3 11-33 11-66 Tlr-1183 (R) -I-3 11-33 11-69 Tlr-1184 (R) -I-3 11-33 11-70 Tlr-1185 (R) -I-3 11-33 11-71 Tlr-1186 (R) -I-3 11-33 11-72 Tlr-1187 (R) -I-3 11-33 11-74 Tlr-1188 (R) -I-3 11-33 11-76 Tlr-1189 (R) -I-3 11-33 11-78 Tlr-1190 (R) -I-3 11-33 11-84 Tlr-1191 (R) -I-3 11-33 11-85 Tlr-1192 (R) -I-3 11-33 11-86 Tlr-1193 (R) -I-3 11-33 11-92 Tlr-1194 (R) -I-3 11-37 11-39 Tlr-1195 (R) -I-3 11-37 11-42 Tlr-1196 (R) -I-3 11-37 11-44 Tlr-1197 (R) -I-3 11-37 11-50 Tlr-1198 (R) -I-3 11-37 11-53 Tlr-1199 (R) -I-3 11-37 11-60 Tlr-1200 (R) -I-3 11-37 11-62

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Tlr-1201 (R) -I-3 11-37 11-66 Tlr-1202 (R) -I-3 11-37 11-69 Tlr-1203 (R) -I-3 11-37 11-70 Tlr-1204 (R) -I-3 11-37 11-71 Tlr-1205 (R) -I-3 11-37 11-72 Tlr-1206 (R) -I-3 11-37 11-74 Tlr-1207 (R) -I-3 11-37 11-76 Tlr-1208 (R) -I-3 11-37 11-78 Tlr-1209 (R) -I-3 11-37 11-84 Tlr-1210 (R) -I-3 11-37 11-85 Tlr-1211 (R) -I-3 11-37 11-86 Tlr-1212 (R) -I-3 11-37 11-92 Tlr-1213 (R) -I-3 11-39 11-42 Tlr-1214 (R) -I-3 11-39 11-44 Tlr-1215 (R) -I-3 11-39 11-50 Tlr-1216 (R) -I-3 11-39 11-53 Tlr-1217 (R) -I-3 11-39 11-60 Tlr-1218 (R) -I-3 11-39 11-62 Tlr-1219 (R) -I-3 11-39 11-66 Tlr-1220 (R) -I-3 11-39 11-69 Tlr-1221 (R) -I-3 11-39 11-70 Tlr-1222 (R) -I-3 11-39 11-71 Tlr-1223 (R) -I-3 11-39 11-72 Tlr-1224 (R) -I-3 11-39 11-74 Tlr-1225 (R) -I-3 11-39 11-76 Tlr-1226 (R) -I-3 11-39 11-78 Tlr-1227 (R) -I-3 11-39 11-84 Tlr-1228 (R) -I-3 11-39 11-85 Tlr-1229 (R) -I-3 11-39 11-86 Tlr-1230 (R) -I-3 11-39 11-92 Tlr-1231 (R) -I-3 11-42 11-44 Tlr-1232 (R) -I-3 11-42 11-50 Tlr-1233 (R) -I-3 11-42 11-53 Tlr-1234 (R) -I-3 11-42 11-60 Tlr-1235 (R) -I-3 11-42 11-62 Tlr-1236 (R) -I-3 11-42 11-66 Tlr-1237 (R) -I-3 11-42 11-69 Tlr-1238 (R) -I-3 11-42 11-70 Tlr-1239 (R) -I-3 11-42 11-71 Tlr-1240 (R) -I-3 11-42 11-72 Tlr-1241 (R) -I-3 11-42 11-74 Tlr-1242 (R) -I-3 11-42 11-76 Tlr-1243 (R) -I-3 11-42 11-78 Tlr-1244 (R) -I-3 11-42 11-84 Tlr-1245 (R) -I-3 11-42 11-85 Tlr-1246 (R) -I-3 11-42 11-86

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Tlr-1247 (R) -I-3 11-42 11-92 Tlr-1248 (R) -I-3 11-44 11-50 Tlr-1249 (R) -I-3 11-44 11-53 Tlr-1250 (R) -I-3 11-44 11-60 Tlr-1251 (R) -I-3 11-44 11-62 Tlr-1252 (R) -I-3 11-44 11-66 Tlr-1253 (R) -I-3 11-44 11-69 Tlr-1254 (R) -I-3 11-44 11-70 Tlr-1255 (R) -I-3 11-44 11-71 Tlr-1256 (R) -I-3 11-44 11-72 Tlr-1257 (R) -I-3 11-44 11-74 Tlr-1258 (R) -I-3 11-44 11-76 Tlr-1259 (R) -I-3 11-44 11-78 Tlr-1260 (R) -I-3 11-44 11-84 Tlr-1261 (R) -I-3 11-44 11-85 Tlr-1262 (R) -I-3 11-44 11-86 Tlr-1263 (R) -I-3 11-44 11-92 Tlr-1264 (R) -I-3 11-50 11-53 Tlr-1265 (R) -I-3 11-50 11-60 Tlr-1266 (R) -I-3 11-50 11-62 Tlr-1267 (R) -I-3 11-50 11-66 Tlr-1268 (R) -I-3 11-50 11-69 Tlr-1269 (R) -I-3 11-50 11-70 Tlr-1270 (R) -I-3 11-50 11-71 Tlr-1271 (R) -I-3 11-50 11-72 Tlr-1272 (R) -I-3 11-50 11-74 Tlr-1273 (R) -I-3 11-50 11-76 Tlr-1274 (R) -I-3 11-50 11-78 Tlr-1275 (R) -I-3 11-50 11-84 Tlr-1276 (R) -I-3 11-50 11-85 Tlr-1277 (R) -I-3 11-50 11-86 Tlr-1278 (R) -I-3 11-50 11-92 Tlr-1279 (R) -I-3 11-53 11-60 Tlr-1280 (R) -I-3 11-53 11-62 Tlr-1281 (R) -I-3 11-53 11-66 Tlr-1282 (R) -I-3 11-53 11-69 Tlr-1283 (R) -I-3 11-53 11-70 Tlr-1284 (R) -I-3 11-53 11-71 Tlr-1285 (R) -I-3 11-53 11-72 Tlr-1286 (R) -I-3 11-53 11-74 Tlr-1287 (R) -I-3 11-53 11-76 Tlr-1288 (R) -I-3 11-53 11-78 Tlr-1289 (R) -I-3 11-53 11-84 Tlr-1290 (R) -I-3 11-53 11-85 Tlr-1291 (R) -I-3 11-53 11-86 Tlr-1292 (R) -I-3 11-53 11-92

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Tlr-1293 (R) -I-3 11-60 11-62 Tlr-1294 (R) -I-3 11-60 11-66 Tlr-1295 (R) -I-3 11-60 11-69 Tlr-1296 (R) -I-3 11-60 11-70 Tlr-1297 (R) -I-3 11-60 11-71 Tlr-1298 (R) -I-3 11-60 11-72 Tlr-1299 (R) -I-3 11-60 11-74 Tlr-1300 (R) -I-3 11-60 11-76 Tlr-1301 (R) -I-3 11-60 11-78 Tlr-1302 (R) -I-3 11-60 11-84 Tlr-1303 (R) -I-3 11-60 11-85 Tlr-1304 (R) -I-3 11-60 11-86 Tlr-1305 (R) -I-3 11-60 11-92 Tlr-1306 (R) -I-3 11-62 11-66 Tlr-1307 (R) -I-3 11-62 11-69 Tlr-1308 (R) -I-3 11-62 11-70 Tlr-1309 (R) -I-3 11-62 11-71 Tlr-1310 (R) -I-3 11-62 11-72 Tlr-1311 (R) -I-3 11-62 11-74 Tlr-1312 (R) -I-3 11-62 11-76 Tlr-1313 (R) -I-3 11-62 11-78 Tlr-1314 (R) -I-3 11-62 11-84 Tlr-1315 (R) -I-3 11-62 11-85 Tlr-1316 (R) -I-3 11-62 11-86 Tlr-1317 (R) -I-3 11-62 11-92 Tlr-1318 (R) -I-3 11-66 11-69 Tlr-1319 (R) -I-3 11-66 11-70 Tlr-1320 (R) -I-3 11-66 11-71 Tlr-1321 (R) -I-3 11-66 11-72 Tlr-1322 (R) -I-3 11-66 11-74 Tlr-1323 (R) -I-3 11-66 11-76 Tlr-1324 (R) -I-3 11-66 11-78 Tlr-1325 (R) -I-3 11-66 11-84 Tlr-1326 (R) -I-3 11-66 11-85 Tlr-1327 (R) -I-3 11-66 11-86 Tlr-1328 (R) -I-3 11-66 11-92 Tlr-1329 (R) -I-3 11-69 11-70 Tlr-1330 (R) -I-3 11-69 11-71 Tlr-1331 (R) -I-3 11-69 11-72 Tlr-1332 (R) -I-3 11-69 11-74 Tlr-1333 (R) -I-3 11-69 11-76 Tlr-1334 (R) -I-3 11-69 11-78 Tlr-1335 (R) -I-3 11-69 11-84 Tlr-1336 (R) -I-3 11-69 11-85 Tlr-1337 (R) -I-3 11-69 11-86 Tlr-1338 (R) -I-3 11-69 11-92

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Tlr-1339 (R) -I-3 11-70 11-71 Tlr-1340 (R) -I-3 11-70 11-72 Tlr-1341 (R) -I-3 11-70 11-74 Tlr-1342 (R) -I-3 11-70 11-76 Tlr-1343 (R) -I-3 11-70 11-78 Tlr-1344 (R) -I-3 11-70 11-84 Tlr-1345 (R) -I-3 11-70 11-85 Tlr-1346 (R) -I-3 11-70 11-86 Tlr-1347 (R) -I-3 11-70 11-92 Tlr-1348 (R) -I-3 11-71 11-72 Tlr-1349 (R) -I-3 11-71 11-74 Tlr-1350 (R) -I-3 11-71 11-76 Tlr-1351 (R) -I-3 11-71 11-78 Tlr-1352 (R) -I-3 11-71 11-84 Tlr-1353 (R) -I-3 11-71 11-85 Tlr-1354 (R) -I-3 11-71 11-86 Tlr-1355 (R) -I-3 11-71 11-92 Tlr-1356 (R) -I-3 11-72 11-74 Tlr-1357 (R) -I-3 11-74 11-76 Tlr-1358 (R) -I-3 11-74 11-78 Tlr-1359 (R) -I-3 11-74 11-84 Tlr-1360 (R) -I-3 11-74 11-85 Tlr-1361 (R) -I-3 11-74 11-86 Tlr-1362 (R) -I-3 11-74 11-92 Tlr-1363 (R) -I-3 11-76 11-78 Tlr-1364 (R) -I-3 11-76 11-84 Tlr-1365 (R) -I-3 11-76 11-85 Tlr-1366 (R) -I-3 11-76 11-86 Tlr-1367 (R) -I-3 11-76 11-92 Tlr-1368 (R) -I-3 11-78 11-84 Tlr-1369 (R) -I-3 11-78 11-85 Tlr-1370 (R) -I-3 11-78 11-86 Tlr-1371 (R) -I-3 11-78 11-92 Tlr-1372 (R) -I-3 11-84 11-85 Tlr-1373 (R) -I-3 11-84 11-86 Tlr-1374 (R) -I-3 11-84 11-92 Tlr-1375 (R) -I-3 11-85 11-86 Tlr-1376 (R) -I-3 11-85 11-92 Tlr-1377 (R) -I-3 11-86 11-92 Tlr-1378 (R) -I-4 II-3 II-5 Tlr-1379 (R) -I-4 II-3 II-6 Tlr-1380 (R) -I-4 II-3 II-7 Tlr-1381 (R) -I-4 II-3 II-8 Tlr-1382 (R) -I-4 II-3 II-11 Tlr-1383 (R) -I-4 II-3 11-16 Tlr-1384 (R) -I-4 II-3 11-21

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Tlr-1385 (R) -I-4 II-3 11-26 Tlr-1386 (R) -I-4 II-3 11-32 Tlr-1387 (R) -I-4 II-3 11-33 Tlr-1388 (R) -I-4 II-3 11-37 Tlr-1389 (R) -I-4 II-3 11-39 Tlr-1390 (R) -I-4 II-3 11-42 Tlr-1391 (R) -I-4 II-3 11-44 Tlr-1392 (R) -I-4 II-3 11-50 Tlr-1393 (R) -I-4 II-3 11-53 Tlr-1394 (R) -I-4 II-3 11-60 Tlr-1395 (R) -I-4 II-3 11-62 Tlr-1396 (R) -I-4 II-3 11-66 Tlr-1397 (R) -I-4 II-3 11-69 Tlr-1398 (R) -I-4 II-3 11-70 Tlr-1399 (R) -I-4 II-3 11-71 Tlr-1400 (R) -I-4 II-3 11-72 Tlr-1401 (R) -I-4 II-3 11-74 Tlr-1402 (R) -I-4 II-3 11-76 Tlr-1403 (R) -I-4 II-3 11-78 Tlr-1404 (R) -I-4 II-3 11-84 Tlr-1405 (R) -I-4 II-3 11-85 Tlr-1406 (R) -I-4 II-3 11-86 Tlr-1407 (R) -I-4 II-3 11-92 Tlr-1408 (R) -I-4 II-5 II-6 Tlr-1409 (R) -I-4 II-5 II-7 Tlr-1410 (R) -I-4 II-5 II-8 Tlr-1411 (R) -I-4 II-5 II-11 Tlr-1412 (R) -I-4 II-5 11-16 Tlr-1413 (R) -I-4 II-5 11-21 Tlr-1414 (R) -I-4 II-5 11-26 Tlr-1415 (R) -I-4 II-5 11-32 Tlr-1416 (R) -I-4 II-5 11-33 Tlr-1417 (R) -I-4 II-5 11-37 Tlr-1418 (R) -I-4 II-5 11-39 Tlr-1419 (R) -I-4 II-5 11-42 Tlr-1420 (R) -I-4 II-5 11-44 Tlr-1421 (R) -I-4 II-5 11-50 Tlr-1422 (R) -I-4 II-5 11-53 Tlr-1423 (R) -I-4 II-5 11-60 Tlr-1424 (R) -I-4 II-5 11-62 Tlr-1425 (R) -I-4 II-5 11-66 Tlr-1426 (R) -I-4 II-5 11-69 Tlr-1427 (R) -I-4 II-5 11-70 Tlr-1428 (R) -I-4 II-5 11-71 Tlr-1429 (R) -I-4 II-5 11-72 Tlr-1430 (R) -I-4 II-5 11-74

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Tlr-1431 (R) -I-4 II-5 11-76 Tlr-1432 (R) -I-4 II-5 11-78 Tlr-1433 (R) -I-4 II-5 11-84 Tlr-1434 (R) -I-4 II-5 11-85 Tlr-1435 (R) -I-4 II-5 11-86 Tlr-1436 (R) -I-4 II-5 11-92 Tlr-1437 (R) -I-4 II-6 II-7 Tlr-1438 (R) -I-4 II-6 II-8 Tlr-1439 (R) -I-4 II-6 II-11 Tlr-1440 (R) -I-4 II-6 11-16 Tlr-1441 (R) -I-4 II-6 11-21 Tlr-1442 (R) -I-4 II-6 11-26 Tlr-1443 (R) -I-4 II-6 11-32 Tlr-1444 (R) -I-4 II-6 11-33 Tlr-1445 (R) -I-4 II-6 11-37 Tlr-1446 (R) -I-4 II-6 11-39 Tlr-1447 (R) -I-4 II-6 11-42 Tlr-1448 (R) -I-4 II-6 11-44 Tlr-1449 (R) -I-4 II-6 11-50 Tlr-1450 (R) -I-4 II-6 11-53 Tlr-1451 (R) -I-4 II-6 11-60 Tlr-1452 (R) -I-4 II-6 11-62 Tlr-1453 (R) -I-4 II-6 11-66 Tlr-1454 (R) -I-4 II-6 11-69 Tlr-1455 (R) -I-4 II-6 11-70 Tlr-1456 (R) -I-4 II-6 11-71 Tlr-1457 (R) -I-4 II-6 11-72 Tlr-1458 (R) -I-4 II-6 11-74 Tlr-1459 (R) -I-4 II-6 11-76 Tlr-1460 (R) -I-4 II-6 11-78 Tlr-1461 (R) -I-4 II-6 11-84 Tlr-1462 (R) -I-4 II-6 11-85 Tlr-1463 (R) -I-4 II-6 11-86 Tlr-1464 (R) -I-4 II-6 11-92 Tlr-1465 (R) -I-4 II-7 II-8 Tlr-1466 (R) -I-4 II-7 II-11 Tlr-1467 (R) -I-4 II-7 11-16 Tlr-1468 (R) -I-4 II-7 11-21 Tlr-1469 (R) -I-4 II-7 11-26 Tlr-1470 (R) -I-4 II-7 11-32 Tlr-1471 (R) -I-4 II-7 11-33 Tlr-1472 (R) -I-4 II-7 11-37 Tlr-1473 (R) -I-4 II-7 11-39 Tlr-1474 (R) -I-4 II-7 11-42 Tlr-1475 (R) -I-4 II-7 11-44 Tlr-1476 (R) -I-4 II-7 11-50

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Tlr-1477 (R) -I-4 II-7 11-53 Tlr-1478 (R) -I-4 II-7 11-60 Tlr-1479 (R) -I-4 II-7 11-62 Tlr-1480 (R) -I-4 II-7 11-66 Tlr-1481 (R) -I-4 II-7 11-69 Tlr-1482 (R) -I-4 II-7 11-70 Tlr-1483 (R) -I-4 II-7 11-71 Tlr-1484 (R) -I-4 II-7 11-72 Tlr-1485 (R) -I-4 II-7 11-74 Tlr-1486 (R) -I-4 II-7 11-76 Tlr-1487 (R) -I-4 II-7 11-78 Tlr-1488 (R) -I-4 II-7 11-84 Tlr-1489 (R) -I-4 II-7 11-85 Tlr-1490 (R) -I-4 II-7 11-86 Tlr-1491 (R) -I-4 II-7 11-92 Tlr-1492 (R) -I-4 II-8 II-11 Tlr-1493 (R) -I-4 II-8 11-16 Tlr-1494 (R) -I-4 II-8 11-21 Tlr-1495 (R) -I-4 II-8 11-26 Tlr-1496 (R) -I-4 II-8 11-32 Tlr-1497 (R) -I-4 II-8 11-33 Tlr-1498 (R) -I-4 II-8 11-37 Tlr-1499 (R) -I-4 II-8 11-39 Tlr-1500 (R) -I-4 II-8 11-42 Tlr-1501 (R) -I-4 II-8 11-44 Tlr-1502 (R) -I-4 II-8 11-50 Tlr-1503 (R) -I-4 II-8 11-53 Tlr-1504 (R) -I-4 II-8 11-60 Tlr-1505 (R) -I-4 II-8 11-62 Tlr-1506 (R) -I-4 II-8 11-66 Tlr-1507 (R) -I-4 II-8 11-69 Tlr-1508 (R) -I-4 II-8 11-70 Tlr-1509 (R) -I-4 II-8 11-71 Tlr-1510 (R) -I-4 II-8 11-72 Tlr-1511 (R) -I-4 II-8 11-74 Tlr-1512 (R) -I-4 II-8 11-76 Tlr-1513 (R) -I-4 II-8 11-78 Tlr-1514 (R) -I-4 II-8 11-84 Tlr-1515 (R) -I-4 II-8 11-85 Tlr-1516 (R) -I-4 II-8 11-86 Tlr-1517 (R) -I-4 II-8 11-92 Tlr-1518 (R) -I-4 II-11 11-16 Tlr-1519 (R) -I-4 II-11 11-21 Tlr-1520 (R) -I-4 II-11 11-26 Tlr-1521 (R) -I-4 II-11 11-32 Tlr-1522 (R) -I-4 II-11 11-33

- 179 030875

Tlr-1523 (R) -I-4 II-11 11-37 Tlr-1524 (R) -I-4 II-11 11-39 Tlr-1525 (R) -I-4 II-11 11-42 Tlr-1526 (R) -I-4 II-11 11-44 Tlr-1527 (R) -I-4 II-11 11-50 Tlr-1528 (R) -I-4 II-11 11-53 Tlr-1529 (R) -I-4 II-11 11-60 Tlr-1530 (R) -I-4 II-11 11-62 Tlr-1531 (R) -I-4 II-11 11-66 Tlr-1532 (R) -I-4 II-11 11-69 Tlr-1533 (R) -I-4 II-11 11-70 Tlr-1534 (R) -I-4 II-11 11-71 Tlr-1535 (R) -I-4 II-11 11-72 Tlr-1536 (R) -I-4 II-11 11-74 Tlr-1537 (R) -I-4 II-11 11-76 Tlr-1538 (R) -I-4 II-11 11-78 Tlr-1539 (R) -I-4 II-11 11-84 Tlr-1540 (R) -I-4 II-11 11-85 Tlr-1541 (R) -I-4 II-11 11-86 Tlr-1542 (R) -I-4 II-11 11-92 Tlr-1543 (R) -I-4 11-16 11-21 Tlr-1544 (R) -I-4 11-16 11-26 Tlr-1545 (R) -I-4 11-16 11-32 Tlr-1546 (R) -I-4 11-16 11-33 Tlr-1547 (R) -I-4 11-16 11-37 Tlr-1548 (R) -I-4 11-16 11-39 Tlr-1549 (R) -I-4 11-16 11-42 Tlr-1550 (R) -I-4 11-16 11-44 Tlr-1551 (R) -I-4 11-16 11-50 Tlr-1552 (R) -I-4 11-16 11-53 Tlr-1553 (R) -I-4 11-16 11-60 Tlr-1554 (R) -I-4 11-16 11-62 Tlr-1555 (R) -I-4 11-16 11-66 Tlr-1556 (R) -I-4 11-16 11-69 Tlr-1557 (R) -I-4 11-16 11-70 Tlr-1558 (R) -I-4 11-16 11-71 Tlr-1559 (R) -I-4 11-16 11-72 Tlr-1560 (R) -I-4 11-16 11-74 Tlr-1561 (R) -I-4 11-16 11-76 Tlr-1562 (R) -I-4 11-16 11-78 Tlr-1563 (R) -I-4 11-16 11-84 Tlr-1564 (R) -I-4 11-16 11-85 Tlr-1565 (R) -I-4 11-16 11-86 Tlr-1566 (R) -I-4 11-16 11-92 Tlr-1567 (R) -I-4 11-21 11-26 Tlr-1568 (R) -I-4 11-21 11-32

- 180 030875

Tlr-1569 (R) -I-4 11-21 11-33 Tlr-1570 (R) -I-4 11-21 11-37 Tlr-1571 (R) -I-4 11-21 11-39 Tlr-1572 (R) -I-4 11-21 11-42 Tlr-1573 (R) -I-4 11-21 11-44 Tlr-1574 (R) -I-4 11-21 11-50 Tlr-1575 (R) -I-4 11-21 11-53 Tlr-1576 (R) -I-4 11-21 11-60 Tlr-1577 (R) -I-4 11-21 11-62 Tlr-1578 (R) -I-4 11-21 11-66 Tlr-1579 (R) -I-4 11-21 11-69 Tlr-1580 (R) -I-4 11-21 11-70 Tlr-1581 (R) -I-4 11-21 11-71 Tlr-1582 (R) -I-4 11-21 11-72 Tlr-1583 (R) -I-4 11-21 11-74 Tlr-1584 (R) -I-4 11-21 11-76 Tlr-1585 (R) -I-4 11-21 11-78 Tlr-1586 (R) -I-4 11-21 11-84 Tlr-1587 (R) -I-4 11-21 11-85 Tlr-1588 (R) -I-4 11-21 11-86 Tlr-1589 (R) -I-4 11-21 11-92 Tlr-1590 (R) -I-4 11-26 11-32 Tlr-1591 (R) -I-4 11-26 11-33 Tlr-1592 (R) -I-4 11-26 11-37 Tlr-1593 (R) -I-4 11-26 11-39 Tlr-1594 (R) -I-4 11-26 11-42 Tlr-1595 (R) -I-4 11-26 11-44 Tlr-1596 (R) -I-4 11-26 11-50 Tlr-1597 (R) -I-4 11-26 11-53 Tlr-1598 (R) -I-4 11-26 11-60 Tlr-1599 (R) -I-4 11-26 11-62 Tlr-1600 (R) -I-4 11-26 11-66 Tlr-1601 (R) -I-4 11-26 11-69 Tlr-1602 (R) -I-4 11-26 11-70 Tlr-1603 (R) -I-4 11-26 11-71 Tlr-1604 (R) -I-4 11-26 11-72 Tlr-1605 (R) -I-4 11-26 11-74 Tlr-1606 (R) -I-4 11-26 11-76 Tlr-1607 (R) -I-4 11-26 11-78 Tlr-1608 (R) -I-4 11-26 11-84 Tlr-1609 (R) -I-4 11-26 11-85 Tlr-1610 (R) -I-4 11-26 11-86 Tlr-1611 (R) -I-4 11-26 11-92 Tlr-1612 (R) -I-4 11-32 11-33 Tlr-1613 (R) -I-4 11-32 11-37 Tlr-1614 (R) -I-4 11-32 11-39

- 181 030875

Tlr-1615 (R) -I-4 11-32 11-42 Tlr-1616 (R) -I-4 11-32 11-44 Tlr-1617 (R) -I-4 11-32 11-50 Tlr-1618 (R) -I-4 11-32 11-53 Tlr-1619 (R) -I-4 11-32 11-60 Tlr-1620 (R) -I-4 11-32 11-62 Tlr-1621 (R) -I-4 11-32 11-66 Tlr-1622 (R) -I-4 11-32 11-69 Tlr-1623 (R) -I-4 11-32 11-70 Tlr-1624 (R) -I-4 11-32 11-71 Tlr-1625 (R) -I-4 11-32 11-72 Tlr-1626 (R) -I-4 11-32 11-74 Tlr-1627 (R) -I-4 11-32 11-76 Tlr-1628 (R) -I-4 11-32 11-78 Tlr-1629 (R) -I-4 11-32 11-84 Tlr-1630 (R) -I-4 11-32 11-85 Tlr-1631 (R) -I-4 11-32 11-86 Tlr-1632 (R) -I-4 11-32 11-92 Tlr-1633 (R) -I-4 11-33 11-37 Tlr-1634 (R) -I-4 11-33 11-39 Tlr-1635 (R) -I-4 11-33 11-42 Tlr-1636 (R) -I-4 11-33 11-44 Tlr-1637 (R) -I-4 11-33 11-50 Tlr-1638 (R) -I-4 11-33 11-53 Tlr-1639 (R) -I-4 11-33 11-60 Tlr-1640 (R) -I-4 11-33 11-62 Tlr-1641 (R) -I-4 11-33 11-66 Tlr-1642 (R) -I-4 11-33 11-69 Tlr-1643 (R) -I-4 11-33 11-70 Tlr-1644 (R) -I-4 11-33 11-71 Tlr-1645 (R) -I-4 11-33 11-72 Tlr-1646 (R) -I-4 11-33 11-74 Tlr-1647 (R) -I-4 11-33 11-76 Tlr-1648 (R) -I-4 11-33 11-78 Tlr-1649 (R) -I-4 11-33 11-84 Tlr-1650 (R) -I-4 11-33 11-85 Tlr-1651 (R) -I-4 11-33 11-86 Tlr-1652 (R) -I-4 11-33 11-92 Tlr-1653 (R) -I-4 11-37 11-39 Tlr-1654 (R) -I-4 11-37 11-42 Tlr-1655 (R) -I-4 11-37 11-44 Tlr-1656 (R) -I-4 11-37 11-50 Tlr-1657 (R) -I-4 11-37 11-53 Tlr-1658 (R) -I-4 11-37 11-60 Tlr-1659 (R) -I-4 11-37 11-62 Tlr-1660 (R) -I-4 11-37 11-66

- 182 030875

Tlr-1661 (R) -I-4 11-37 11-69 Tlr-1662 (R) -I-4 11-37 11-70 Tlr-1663 (R) -I-4 11-37 11-71 Tlr-1664 (R) -I-4 11-37 11-72 Tlr-1665 (R) -I-4 11-37 11-74 Tlr-1666 (R) -I-4 11-37 11-76 Tlr-1667 (R) -I-4 11-37 11-78 Tlr-1668 (R) -I-4 11-37 11-84 Tlr-1669 (R) -I-4 11-37 11-85 Tlr-1670 (R) -I-4 11-37 11-86 Tlr-1671 (R) -I-4 11-37 11-92 Tlr-1672 (R) -I-4 11-39 11-42 Tlr-1673 (R) -I-4 11-39 11-44 Tlr-1674 (R) -I-4 11-39 11-50 Tlr-1675 (R) -I-4 11-39 11-53 Tlr-1676 (R) -I-4 11-39 11-60 Tlr-1677 (R) -I-4 11-39 11-62 Tlr-1678 (R) -I-4 11-39 11-66 Tlr-1679 (R) -I-4 11-39 11-69 Tlr-1680 (R) -I-4 11-39 11-70 Tlr-1681 (R) -I-4 11-39 11-71 Tlr-1682 (R) -I-4 11-39 11-72 Tlr-1683 (R) -I-4 11-39 11-74 Tlr-1684 (R) -I-4 11-39 11-76 Tlr-1685 (R) -I-4 11-39 11-78 Tlr-1686 (R) -I-4 11-39 11-84 Tlr-1687 (R) -I-4 11-39 11-85 Tlr-1688 (R) -I-4 11-39 11-86 Tlr-1689 (R) -I-4 11-39 11-92 Tlr-1690 (R) -I-4 11-42 11-44 Tlr-1691 (R) -I-4 11-42 11-50 Tlr-1692 (R) -I-4 11-42 11-53 Tlr-1693 (R) -I-4 11-42 11-60 Tlr-1694 (R) -I-4 11-42 11-62 Tlr-1695 (R) -I-4 11-42 11-66 Tlr-1696 (R) -I-4 11-42 11-69 Tlr-1697 (R) -I-4 11-42 11-70 Tlr-1698 (R) -I-4 11-42 11-71 Tlr-1699 (R) -I-4 11-42 11-72 Tlr-1700 (R) -I-4 11-42 11-74 Tlr-1701 (R) -I-4 11-42 11-76 Tlr-1702 (R) -I-4 11-42 11-78 Tlr-1703 (R) -I-4 11-42 11-84 Tlr-1704 (R) -I-4 11-42 11-85 Tlr-1705 (R) -I-4 11-42 11-86 Tlr-1706 (R) -I-4 11-42 11-92

- 183 030875

Tlr-1707 (R) -I-4 11-44 11-50 Tlr-1708 (R) -I-4 11-44 11-53 Tlr-1709 (R) -I-4 11-44 11-60 Tlr-1710 (R) -I-4 11-44 11-62 Tlr-1711 (R) -I-4 11-44 11-66 Tlr-1712 (R) -I-4 11-44 11-69 Tlr-1713 (R) -I-4 11-44 11-70 Tlr-1714 (R) -I-4 11-44 11-71 Tlr-1715 (R) -I-4 11-44 11-72 Tlr-1716 (R) -I-4 11-44 11-74 Tlr-1717 (R) -I-4 11-44 11-76 Tlr-1718 (R) -I-4 11-44 11-78 Tlr-1719 (R) -I-4 11-44 11-84 Tlr-1720 (R) -I-4 11-44 11-85 Tlr-1721 (R) -I-4 11-44 11-86 Tlr-1722 (R) -I-4 11-44 11-92 Tlr-1723 (R) -I-4 11-50 11-53 Tlr-1724 (R) -I-4 11-50 11-60 Tlr-1725 (R) -I-4 11-50 11-62 Tlr-1726 (R) -I-4 11-50 11-66 Tlr-1727 (R) -I-4 11-50 11-69 Tlr-1728 (R) -I-4 11-50 11-70 Tlr-1729 (R) -I-4 11-50 11-71 Tlr-1730 (R) -I-4 11-50 11-72 Tlr-1731 (R) -I-4 11-50 11-74 Tlr-1732 (R) -I-4 11-50 11-76 Tlr-1733 (R) -I-4 11-50 11-78 Tlr-1734 (R) -I-4 11-50 11-84 Tlr-1735 (R) -I-4 11-50 11-85 Tlr-1736 (R) -I-4 11-50 11-86 Tlr-1737 (R) -I-4 11-50 11-92 Tlr-1738 (R) -I-4 11-53 11-60 Tlr-1739 (R) -I-4 11-53 11-62 Tlr-1740 (R) -I-4 11-53 11-66 Tlr-1741 (R) -I-4 11-53 11-69 Tlr-1742 (R) -I-4 11-53 11-70 Tlr-1743 (R) -I-4 11-53 11-71 Tlr-1744 (R) -I-4 11-53 11-72 Tlr-1745 (R) -I-4 11-53 11-74 Tlr-1746 (R) -I-4 11-53 11-76 Tlr-1747 (R) -I-4 11-53 11-78 Tlr-1748 (R) -I-4 11-53 11-84 Tlr-1749 (R) -I-4 11-53 11-85 Tlr-1750 (R) -I-4 11-53 11-86 Tlr-1751 (R) -I-4 11-53 11-92 Tlr-1752 (R) -I-4 11-60 11-62

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Tlr-1753 (R) -I-4 11-60 11-66 Tlr-1754 (R) -I-4 11-60 11-69 Tlr-1755 (R) -I-4 11-60 11-70 Tlr-1756 (R) -I-4 11-60 11-71 Tlr-1757 (R) -I-4 11-60 11-72 Tlr-1758 (R) -I-4 11-60 11-74 Tlr-1759 (R) -I-4 11-60 11-76 Tlr-1760 (R) -I-4 11-60 11-78 Tlr-1761 (R) -I-4 11-60 11-84 Tlr-1762 (R) -I-4 11-60 11-85 Tlr-1763 (R) -I-4 11-60 11-86 Tlr-1764 (R) -I-4 11-60 11-92 Tlr-1765 (R) -I-4 11-62 11-66 Tlr-1766 (R) -I-4 11-62 11-69 Tlr-1767 (R) -I-4 11-62 11-70 Tlr-1768 (R) -I-4 11-62 11-71 Tlr-1769 (R) -I-4 11-62 11-72 Tlr-1770 (R) -I-4 11-62 11-74 Tlr-1771 (R) -I-4 11-62 11-76 Tlr-1772 (R) -I-4 11-62 11-78 Tlr-1773 (R) -I-4 11-62 11-84 Tlr-1774 (R) -I-4 11-62 11-85 Tlr-1775 (R) -I-4 11-62 11-86 Tlr-1776 (R) -I-4 11-62 11-92 Tlr-1777 (R) -I-4 11-66 11-69 Tlr-1778 (R) -I-4 11-66 11-70 Tlr-1779 (R) -I-4 11-66 11-71 Tlr-1780 (R) -I-4 11-66 11-72 Tlr-1781 (R) -I-4 11-66 11-74 Tlr-1782 (R) -I-4 11-66 11-76 Tlr-1783 (R) -I-4 11-66 11-78 Tlr-1784 (R) -I-4 11-66 11-84 Tlr-1785 (R) -I-4 11-66 11-85 Tlr-1786 (R) -I-4 11-66 11-86 Tlr-1787 (R) -I-4 11-66 11-92 Tlr-1788 (R) -I-4 11-69 11-70 Tlr-1789 (R) -I-4 11-69 11-71 Tlr-1790 (R) -I-4 11-69 11-72 Tlr-1791 (R) -I-4 11-69 11-74 Tlr-1792 (R) -I-4 11-69 11-76 Tlr-1793 (R) -I-4 11-69 11-78 Tlr-1794 (R) -I-4 11-69 11-84 Tlr-1795 (R) -I-4 11-69 11-85

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Tlr-1796 (R) -I-4 11-69 11-86 Tlr-1797 (R) -I-4 11-69 11-92 Tlr-1798 (R) -I-4 11-70 11-71 Tlr-1799 (R) -I-4 11-70 11-72 Tlr-1800 (R) -I-4 11-70 11-74 Tlr-1801 (R) -I-4 11-70 11-76 Tlr-1802 (R) -I-4 11-70 11-78 Tlr-1803 (R) -I-4 11-70 11-84 Tlr-1804 (R) -I-4 11-70 11-85 Tlr-1805 (R) -I-4 11-70 11-86 Tlr-1806 (R) -I-4 11-70 11-92 Tlr-1807 (R) -I-4 11-71 11-72 Tlr-1808 (R) -I-4 11-71 11-74 Tlr-1809 (R) -I-4 11-71 11-76 Tlr-1810 (R) -I-4 11-71 11-78 Tlr-1811 (R) -I-4 11-71 11-84 Tlr-1812 (R) -I-4 11-71 11-85 Tlr-1813 (R) -I-4 11-71 11-86 Tlr-1814 (R) -I-4 11-71 11-92 Tlr-1815 (R) -I-4 11-72 11-74 Tlr-1816 (R) -I-4 11-74 11-76 Tlr-1817 (R) -I-4 11-74 11-78 Tlr-1818 (R) -I-4 11-74 11-84 Tlr-1819 (R) -I-4 11-74 11-85 Tlr-1820 (R) -I-4 11-74 11-86 Tlr-1821 (R) -I-4 11-74 11-92 Tlr-1822 (R) -I-4 11-76 11-78 Tlr-1823 (R) -I-4 11-76 11-84 Tlr-1824 (R) -I-4 11-76 11-85 Tlr-1825 (R) -I-4 11-76 11-86 Tlr-1826 (R) -I-4 11-76 11-92 Tlr-1827 (R) -I-4 11-78 11-84 Tlr-1828 (R) -I-4 11-78 11-85 Tlr-1829 (R) -I-4 11-78 11-86 Tlr-1830 (R) -I-4 11-78 11-92 Tlr-1831 (R) -I-4 11-84 11-85 Tlr-1832 (R) -I-4 11-84 11-86 Tlr-1833 (R) -I-4 11-84 11-92 Tlr-1834 (R) -I-4 11-85 11-86 Tlr-1835 (R) -I-4 11-85 11-92 Tlr-1836 (R) -I-4 11-86 11-92

Other particularly preferred compositions are three-component compositions in which component I is as defined above, i.e. Compound I, in particular a compound selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described above, components II are selected from

11-15 cyproconazole 11-38 fluquinconazole 11-60 metconazole 11-76 propiconazole 11-78 prothioconazole

and component III is selected from

P-66 pyraclostrobin P-9 captain II-I chlorothalonil II-17 copper II-18 copper hydroxide P-20 DODIN P-25 Dithianon P-43 folpet P-54 mancozeb P-61 metiram P-98 2,6-dimethyl-1H, 5H- [1,4] dithiino [2,3-s: 5,6-с '] dipyrrole-

1,3,5,7 (2H, 6H) -tetraon

P-99 maneb P-100 Bordeaux mixture P-101 copper oxychloride P-102 basic copper sulfate

Such compositions according to the invention are given in table. TH, where each line corresponds to

- 186 030875 one embodiment of the compositions according to the invention, i.e. one particular individualized three component composition. According to one particular aspect, these are triple compositions, each of which contains only these three components as an active compound. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. T1a: other preferred three-component compositions containing component I, component II and component III, with component II and III selected from the preferred fungicides described in detail above, with components II and III different from each other.

Table T1a

composition I II III T1a-1 1-1 II-15 P-66 T1a-2 1-3 II-15 P-66 T1a-3 1-4 II-15 P-66 T1a-4 1-5 II-15 P-66 T1a-5 1-1 P-38 P-66 T1a-6 1-3 P-38 P-66 T1a-7 1-4 P-38 P-66 T1a-8 1-5 P-38 P-66 T1a-9 1-1 P-60 P-66 T1a-10 1-3 P-60 P-66 T1a-11 1-4 P-60 P-66 T1a-12 1-5 P-60 P-66 T1a-13 1-1 P-76 P-66 T1a-14 1-3 P-76 P-66 T1a-15 1-4 P-76 P-66 T1a-16 1-5 P-76 P-66 T1a-17 1-1 P-78 P-66 T1a-18 1-3 P-78 P-66 T1a-19 1-4 P-78 P-66 T1a-20 1-5 P-78 P-66 T1a-21 1-1 II-15 P-9 T1a-22 1-3 II-15 P-9 T1a-23 1-4 II-15 P-9 T1a-24 1-5 II-15 P-9 T1a-25 1-1 P-38 P-9 T1a-26 1-3 P-38 P-9 T1a-27 1-4 P-38 P-9 T1a-28 1-5 P-38 P-9 T1a-29 1-1 P-60 P-9 T1a-ZO 1-3 P-60 P-9 T1a-31 1-4 P-60 P-9 T1a-32 1-5 P-60 P-9 T1a-33 1-1 P-76 P-9 T1a-34 1-3 P-76 P-9 T1a-35 1-4 P-76 P-9 T1a-36 1-5 P-76 P-9 T1a-37 1-1 P-78 P-9 T1a-38 1-3 P-78 P-9 T1a-39 1-4 P-78 P-9 T1a-40 1-5 P-78 P-9

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Tla-41 1-1 11-15 II-11 Tla-42 1-3 11-15 II-11 Tla-43 1-4 11-15 II-11 Tla-44 1-5 11-15 II-11 Tla-45 1-1 11-38 II-11 Tla-46 1-3 11-38 II-11 Tla-47 1-4 11-38 II-11 Tla-48 1-5 11-38 II-11 Tla-49 1-1 11-60 II-11 Tla-50 1-3 11-60 II-11 Tla-51 1-4 11-60 II-11 Tla-52 1-5 11-60 II-11 Tla-53 1-1 11-76 II-11 Tla-54 1-3 11-76 II-11 Tla-55 1-4 11-76 II-11 Tla-56 1-5 11-76 II-11 Tla-57 1-1 11-78 II-11 Tla-58 1-3 11-78 II-11 Tla-59 1-4 11-78 II-11 Tla-60 1-5 11-78 II-11 Tla-61 1-1 11-15 11-17 Tla-62 1-3 11-15 11-17 Tla-63 1-4 11-15 11-17 Tla-64 1-5 11-15 11-17 Tla-65 1-1 11-38 11-17 Tla-66 1-3 11-38 11-17 Tla-67 1-4 11-38 11-17 Tla-68 1-5 11-38 11-17 Tla-69 1-1 11-60 11-17 Tla-70 1-3 11-60 11-17 Tla-71 1-4 11-60 11-17 Tla-72 1-5 11-60 11-17 Tla-73 1-1 11-76 11-17 Tla-74 1-3 11-76 11-17 Tla-75 1-4 11-76 11-17 Tla-76 1-5 11-76 11-17 Tla-77 1-1 11-78 11-17 Tla-78 1-3 11-78 11-17 Tla-79 1-4 11-78 11-17 Tla-80 1-5 11-78 11-17

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Tla-81 1-1 11-15 11-18 Tla-82 1-3 11-15 11-18 Tla-83 1-4 11-15 11-18 Tla-84 1-5 11-15 11-18 Tla-85 1-1 11-38 11-18 Tla-86 1-3 11-38 11-18 Tla-87 1-4 11-38 11-18 Tla-88 1-5 11-38 11-18 Tla-89 1-1 11-60 11-18 Tla-90 1-3 11-60 11-18 Tla-91 1-4 11-60 11-18 Tla-92 1-5 11-60 11-18 Tla-93 1-1 11-76 11-18 Tla-94 1-3 11-76 11-18 Tla-95 1-4 11-76 11-18 Tla-96 1-5 11-76 11-18 Tla-97 1-1 11-78 11-18 Tla-98 1-3 11-78 11-18 Tla-99 1-4 11-78 11-18 Tla-100 1-5 11-78 11-18 Tla-101 1-1 11-15 11-20 Tla-102 1-3 11-15 11-20 Tla-103 1-4 11-15 11-20 Tla-104 1-5 11-15 11-20 Tla-105 1-1 11-38 11-20 Tla-106 1-3 11-38 11-20 Tla-107 1-4 11-38 11-20 Tla-108 1-5 11-38 11-20 Tla-109 1-1 11-60 11-20 Tla-110 1-3 11-60 11-20 Tla-111 1-4 11-60 11-20 Tla-112 1-5 11-60 11-20 Tla-113 1-1 11-76 11-20 Tla-114 1-3 11-76 11-20 Tla-115 1-4 11-76 11-20 Tla-116 1-5 11-76 11-20 Tla-117 1-1 11-78 11-20 Tla-118 1-3 11-78 11-20 Tla-119 1-4 11-78 11-20 Tla-120 1-5 11-78 11-20 Tla-121 1-1 11-15 11-25 Tla-122 1-3 11-15 11-25 Tla-123 1-4 11-15 11-25 Tla-124 1-5 11-15 11-25 Tla-125 1-1 11-38 11-25 Tla-126 1-3 11-38 11-25

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Tla-127 1-4 11-38 11-25 Tla-128 1-5 11-38 11-25 Tla-129 1-1 11-60 11-25 Tla-130 1-3 11-60 11-25 Tla-131 1-4 11-60 11-25 Tla-132 1-5 11-60 11-25 Tla-133 1-1 11-76 11-25 Tla-134 1-3 11-76 11-25 Tla-135 1-4 11-76 11-25 Tla-136 1-5 11-76 11-25 Tla-137 1-1 11-78 11-25 Tla-138 1-3 11-78 11-25 Tla-139 1-4 11-78 11-25 Tla-140 1-5 11-78 11-25 Tla-141 1-1 11-15 11-43 Tla-142 1-3 11-15 11-43 Tla-143 1-4 11-15 11-43 Tla-144 1-5 11-15 11-43 Tla-145 1-1 11-38 11-43 Tla-146 1-3 11-38 11-43 Tla-147 1-4 11-38 11-43 Tla-148 1-5 11-38 11-43 Tla-149 1-1 11-60 11-43 Tla-150 1-3 11-60 11-43 Tla-151 1-4 11-60 11-43 Tla-152 1-5 11-60 11-43 Tla-153 1-1 11-76 11-43 Tla-154 1-3 11-76 11-43 Tla-155 1-4 11-76 11-43 Tla-156 1-5 11-76 11-43 Tla-157 1-1 11-78 11-43 Tla-158 1-3 11-78 11-43 Tla-159 1-4 11-78 11-43 Tla-160 1-5 11-78 11-43 Tla-161 1-1 11-15 11-54 Tla-162 1-3 11-15 11-54 Tla-163 1-4 11-15 11-54 Tla-164 1-5 11-15 11-54 Tla-165 1-1 11-38 11-54 Tla-166 1-3 11-38 11-54 Tla-167 1-4 11-38 11-54 Tla-168 1-5 11-38 11-54 Tla-169 1-1 11-60 11-54 Tla-170 1-3 11-60 11-54 Tla-171 1-4 11-60 11-54 Tla-172 1-5 11-60 11-54

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Tla-173 1-1 11-76 11-54 Tla-174 1-3 11-76 11-54 Tla-175 1-4 11-76 11-54 Tla-176 1-5 11-76 11-54 Tla-177 1-1 11-78 11-54 Tla-178 1-3 11-78 11-54 Tla-179 1-4 11-78 11-54 Tla-180 1-5 11-78 11-54 Tla-181 1-1 11-15 11-61 Tla-182 1-3 11-15 11-61 Tla-183 1-4 11-15 11-61 Tla-184 1-5 11-15 11-61 Tla-185 1-1 11-38 11-61 Tla-186 1-3 11-38 11-61 Tla-187 1-4 11-38 11-61 Tla-188 1-5 11-38 11-61 Tla-189 1-1 11-60 11-61 Tla-190 1-3 11-60 11-61 Tla-191 1-4 11-60 11-61 Tla-192 1-5 11-60 11-61 Tla-193 1-1 11-76 11-61 Tla-194 1-3 11-76 11-61 Tla-195 1-4 11-76 11-61 Tla-196 1-5 11-76 11-61 Tla-197 1-1 11-78 11-61 Tla-198 1-3 11-78 11-61 Tla-199 1-4 11-78 11-61 Tla-200 1-5 11-78 11-61 Tla-201 1-1 11-15 11-98 Tla-202 1-3 11-15 11-98 Tla-203 1-4 11-15 11-98 Tla-204 1-5 11-15 11-98 Tla-205 1-1 11-38 11-98 Tla-206 1-3 11-38 11-98 Tla-207 1-4 11-38 11-98 Tla-208 1-5 11-38 11-98 Tla-209 1-1 11-60 11-98 Tla-210 1-3 11-60 11-98 Tla-211 1-4 11-60 11-98 Tla-212 1-5 11-60 11-98 Tla-213 1-1 11-76 11-98 Tla-214 1-3 11-76 11-98 Tla-215 1-4 11-76 11-98 Tla-216 1-5 11-76 11-98 Tla-217 1-1 11-78 11-98 Tla-218 1-3 11-78 11-98

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Tla-219 1-4 11-78 11-98 Tla-220 1-5 11-78 11-98 Tla-221 1-1 11-15 11-99 Tla-222 1-3 11-15 11-99 Tla-223 1-4 11-15 11-99 Tla-224 1-5 11-15 11-99 Tla-225 1-1 11-38 11-99 Tla-226 1-3 11-38 11-99 Tla-227 1-4 11-38 11-99 Tla-228 1-5 11-38 11-99 Tla-229 1-1 11-60 11-99 Tla-230 1-3 11-60 11-99 Tla-231 1-4 11-60 11-99 Tla-232 1-5 11-60 11-99 Tla-233 1-1 11-76 11-99 Tla-234 1-3 11-76 11-99 Tla-235 1-4 11-76 11-99 Tla-236 1-5 11-76 11-99 Tla-237 1-1 11-78 11-99 Tla-238 1-3 11-78 11-99 Tla-239 1-4 11-78 11-99 Tla-240 1-5 11-78 11-99 Tla-241 1-1 11-15 II-100 Tla-242 1-3 11-15 II-100 Tla-243 1-4 11-15 II-100 Tla-244 1-5 11-15 II-100 Tla-245 1-1 11-38 II-100 Tla-246 1-3 11-38 II-100 Tla-247 1-4 11-38 II-100 Tla-248 1-5 11-38 II-100 Tla-249 1-1 11-60 II-100 Tla-250 1-3 11-60 II-100 Tla-251 1-4 11-60 II-100 Tla-252 1-5 11-60 II-100 Tla-253 1-1 11-76 II-100 Tla-254 1-3 11-76 II-100 Tla-255 1-4 11-76 II-100 Tla-256 1-5 11-76 II-100 Tla-257 1-1 11-78 II-100 Tla-258 1-3 11-78 II-100 Tla-259 1-4 11-78 II-100 Tla-260 1-5 11-78 II-100 Tla-261 1-1 11-15 11-101 Tla-262 1-3 11-15 11-101 Tla-263 1-4 11-15 11-101 Tla-264 1-5 11-15 11-101 Tla-265 1-1 11-38 11-101 Tla-266 1-3 11-38 11-101 Tla-267 1-4 11-38 11-101 Tla-268 1-5 11-38 11-101 Tla-269 1-1 11-60 11-101 Tla-270 1-3 11-60 11-101 Tla-271 1-4 11-60 11-101 Tla-272 1-5 11-60 11-101 Tla-273 1-1 11-76 11-101 Tla-274 1-3 11-76 11-101 Tla-275 1-4 11-76 11-101 Tla-276 1-5 11-76 11-101 Tla-277 1-1 11-78 11-101 Tla-278 1-3 11-78 11-101 Tla-279 1-4 11-78 11-101 Tla-280 1-5 11-78 11-101 Tla-281 1-1 11-15 11-102 Tla-282 1-3 11-15 11-102 Tla-283 1-4 11-15 11-102 Tla-284 1-5 11-15 11-102 Tla-285 1-1 11-38 11-102 Tla-286 1-3 11-38 11-102 Tla-287 1-4 11-38 11-102 Tla-288 1-5 11-38 11-102 Tla-289 1-1 11-60 11-102 Tla-290 1-3 11-60 11-102 Tla-291 1-4 11-60 11-102 Tla-292 1-5 11-60 11-102

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T1a-293 1-1 P-76 II-102 T1a-294 1-3 P-76 II-102 T1a-295 1-4 P-76 II-102 T1a-296 1-5 P-76 II-102 T1a-297 1-1 P-78 II-102 T1a-298 1-3 P-78 II-102 T1a-299 1-4 P-78 II-102 T1a-300 1-5 P-78 II-102 T1a-301 1-1 II-15 II-102 T1a-302 1-3 II-15 II-102 T1a-303 1-4 II-15 II-102 T1a-304 1-5 II-15 II-102 T1a-305 1-1 P-38 II-102 T1a-306 1-3 P-38 II-102 T1a-307 1-4 P-38 II-102 T1a-308 1-5 P-38 II-102 T1a-309 1-1 P-60 II-102 T1a-310 1-3 P-60 II-102 T1a-311 1-4 P-60 II-102 T1a-312 1-5 P-60 II-102 T1a-313 1-1 P-76 II-102 T1a-314 1-3 P-76 II-102 T1a-315 1-4 P-76 II-102 T1a-316 1-5 P-76 II-102 T1a-317 1-1 P-78 II-102 T1a-318 1-3 P-78 II-102 T1a-319 1-4 P-78 II-102 T1a-320 1-5 P-78 II-102

In tab. T1a, in accordance with specific embodiments of the invention, the corresponding component I is present as (S) enantiomer, in which each line corresponds to one embodiment of the compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, these are ternary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions individualized in this table represents embodiments of the present invention (S) enantiomer.

In tab. T1a, according to another specific embodiment of the invention, the corresponding component I is present in the form of (R) enantiomer, in which each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, these are ternary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions individualized in this table represents embodiments of the present invention (R) enantiomer.

One other aspect of the present invention is a new two-component compositions containing component II and component III, shown above in table. T1, i.e. the compositions indicated in the following table. BT1 because they are new.

Tab. BT1: two-component compositions containing component II and component III, with component II and III being selected from the preferred fungicides described in detail above, with components II and III differing from each other. Each line of lines from VT1-1 to VT1-459 corresponds to one separate individualized composition. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

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Table BT1

composition II III VT1-1 Fz P-5 VT1-2 Fz P-6 VT1-3 Fz P-7 VT1-4 Fz P-8 VT1-5 Fz II-I VT1-6 Fz II-16 VT1-7 Fz P-21 VT1-8 Fz P-26 VT1-9 Fz P-32 VT1-10 Fz P-33 VT1-11 Fz P-37 VT1-12 Fz P-39 VT1-13 Fz P-42 VT1-14 Fz P-44 VT1-15 Fz P-50 VT1-16 Fz P-53 VT1-17 Fz P-60 VT1-18 Fz P-62 VT1-19 Fz P-66 VT1-20 Fz P-69 VT1-21 Fz P-70 VT1-22 Fz P-71 VT1-23 Fz P-72 VT1-24 Fz P-74 VT1-25 Fz P-76 VT1-26 Fz P-78 VT1-27 Fz P-84 VT1-28 Fz P-85 VT1-29 Fz P-86 VT1-30 Fz P-92 VT1-31 P-5 P-6 VT1-32 P-5 P-7 VT1-33 P-5 P-8 VT1-34 P-5 II-I VT1-35 P-5 II-16 VT1-36 P-5 P-21 VT1-37 P-5 P-26 VT1-38 P-5 P-32 VT1-39 P-5 P-33 VT1-40 P-5 P-37 VT1-41 II-5 P-39 VT1-42 II-5 P-42 VT1-43 II-5 P-44 VT1-44 II-5 P-50 VT1-45 II-5 P-53 VT1-46 II-5 P-60 VT1-47 II-5 P-62 VT1-48 II-5 P-66 VT1-49 II-5 P-69 VT1-50 II-5 P-70 VT1-51 II-5 P-71 VT1-52 II-5 P-72 VT1-53 II-5 P-74 VT1-54 II-5 P-76 VT1-55 II-5 P-78 VT1-56 II-5 P-84 VT1-57 II-5 P-85 VT1-58 II-5 P-86 VT1-59 II-5 P-92 VT1-60 II-6 P-7

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VT1-61 II-6 II-8 BT1-62 II-6 II-11 BT1-63 II-6 11-16 BT1-64 II-6 11-21 BT1-65 II-6 11-26 BT1-66 II-6 11-32 BT1-67 II-6 11-33 BT1-68 II-6 11-37 BT1-69 II-6 11-39 BT1-70 II-6 11-42 BT1-71 II-6 11-44 BT1-72 II-6 11-50 BT1-73 II-6 11-53 BT1-74 II-6 11-60 BT1-75 II-6 11-62 BT1-76 II-6 11-66 BT1-77 II-6 11-69 BT1-78 II-6 11-70 BT1-79 II-6 11-71 BT1-80 II-6 11-72 BT1-81 II-6 11-74 BT1-82 II-6 11-76 BT1-83 II-6 11-78 BT1-84 II-6 11-84 BT1-85 II-6 11-85 BT1-86 II-6 11-86 BT1-87 II-6 11-92 BT1-88 II-7 II-8 BT1-89 II-7 II-11 BT1-90 II-7 11-16 BT1-91 II-7 11-21 BT1-92 II-7 11-26 BT1-93 II-7 11-32 BT1-94 II-7 11-33 BT1-95 II-7 11-37 BT1-96 II-7 11-39 BT1-97 II-7 11-42 BT1-98 II-7 11-44 BT1-99 II-7 11-50 BT1-100 II-7 11-53 BT1-101 II-7 11-60 BT1-102 II-7 11-62 BT1-103 II-7 11-66 BT1-104 II-7 11-69 BT1-105 II-7 11-70 BT1-106 II-7 11-71

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VT1-107 II-7 11-72 BT1-108 II-7 11-74 BT1-109 II-7 11-76 BT1-110 II-7 11-78 BT1-111 II-7 11-84 BT1-112 II-7 11-85 BT1-113 II-7 11-86 BT1-114 II-7 11-92 BT1-115 II-8 II-11 BT1-116 II-8 11-16 BT1-117 II-8 11-21 BT1-118 II-8 11-26 BT1-119 II-8 11-32 BT1-120 II-8 11-33 BT1-121 II-8 11-37 BT1-122 II-8 11-39 BT1-123 II-8 11-42 BT1-124 II-8 11-44 BT1-125 II-8 11-50 BT1-126 II-8 11-53 BT1-127 II-8 11-60 BT1-128 II-8 11-62 BT1-129 II-8 11-66 BT1-130 II-8 11-69 BT1-131 II-8 11-70 BT1-132 II-8 11-71 BT1-133 II-8 11-72 BT1-134 II-8 11-74 BT1-135 II-8 11-76 BT1-136 II-8 11-78 BT1-137 II-8 11-84 BT1-138 II-8 11-85 BT1-139 II-8 11-86 BT1-140 II-8 11-92 BT1-141 II-11 11-16 BT1-142 II-11 11-21 BT1-143 II-11 11-26 BT1-144 II-11 11-32 BT1-145 II-11 11-33 BT1-146 II-11 11-37 BT1-147 II-11 11-39 BT1-148 II-11 11-42 BT1-149 II-11 11-44 BT1-150 II-11 11-50 BT1-151 II-11 11-53 BT1-152 II-11 11-60

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VT1-153 II-11 11-62 BT1-154 II-11 11-66 BT1-155 II-11 11-69 BT1-156 II-11 11-70 BT1-157 II-11 11-71 BT1-158 II-11 11-72 BT1-159 II-11 11-74 BT1-160 II-11 11-76 BT1-161 II-11 11-78 BT1-162 II-11 11-84 BT1-163 II-11 11-85 BT1-164 II-11 11-86 BT1-165 II-11 11-92 BT1-166 11-16 11-21 BT1-167 11-16 11-26 BT1-168 11-16 11-32 BT1-169 11-16 11-33 BT1-170 11-16 11-37 BT1-171 11-16 11-39 BT1-172 11-16 11-42 BT1-173 11-16 11-44 BT1-174 11-16 11-50 BT1-175 11-16 11-53 BT1-176 11-16 11-60 BT1-177 11-16 11-62 BT1-178 11-16 11-66 BT1-179 11-16 11-69 BT1-180 11-16 11-70 BT1-181 11-16 11-71 BT1-182 11-16 11-72 BT1-183 11-16 11-74 BT1-184 11-16 11-76 BT1-185 11-16 11-78 BT1-186 11-16 11-84 BT1-187 11-16 11-85 BT1-188 11-16 11-86 BT1-189 11-16 11-92 BT1-190 11-21 11-26 BT1-191 11-21 11-32 BT1-192 11-21 11-33 BT1-193 11-21 11-37 BT1-194 11-21 11-39 BT1-195 11-21 11-42 BT1-196 11-21 11-44 BT1-197 11-21 11-50 BT1-198 11-21 11-53

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VT1-199 11-21 11-60 BT1-200 11-21 11-62 BT1-201 11-21 11-66 BT1-202 11-21 11-69 BT1-203 11-21 11-70 BT1-204 11-21 11-71 BT1-205 11-21 11-72 BT1-206 11-21 11-74 BT1-207 11-21 11-76 BT1-208 11-21 11-78 BT1-209 11-21 11-84 BT1-210 11-21 11-85 BT1-211 11-21 11-86 BT1-212 11-21 11-92 BT1-213 11-26 11-32 BT1-214 11-26 11-33 BT1-215 11-26 11-37 BT1-216 11-26 11-39 BT1-217 11-26 11-42 BT1-218 11-26 11-44 BT1-219 11-26 11-50 BT1-220 11-26 11-53 BT1-221 11-26 11-60 BT1-222 11-26 11-62 BT1-223 11-26 11-66 BT1-224 11-26 11-69 BT1-225 11-26 11-70 BT1-226 11-26 11-71 BT1-227 11-26 11-72 BT1-228 11-26 11-74 BT1-229 11-26 11-76 BT1-230 11-26 11-78 BT1-231 11-26 11-84 BT1-232 11-26 11-85 BT1-233 11-26 11-86 BT1-234 11-26 11-92 BT1-235 11-32 11-33 BT1-236 11-32 11-37 BT1-237 11-32 11-39 BT1-238 11-32 11-42 BT1-239 11-32 11-44 BT1-240 11-32 11-50 BT1-241 11-32 11-53 BT1-242 11-32 11-60 BT1-243 11-32 11-62 BT1-244 11-32 11-66

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VT1-245 11-32 11-69 BT1-246 11-32 11-70 BT1-247 11-32 11-71 BT1-248 11-32 11-72 BT1-249 11-32 11-74 BT1-250 11-32 11-76 BT1-251 11-32 11-78 BT1-252 11-32 11-84 BT1-253 11-32 11-85 BT1-254 11-32 11-86 BT1-255 11-32 11-92 BT1-256 11-33 11-37 BT1-257 11-33 11-39 BT1-258 11-33 11-42 BT1-259 11-33 11-44 BT1-260 11-33 11-50 BT1-261 11-33 11-53 BT1-262 11-33 11-60 BT1-263 11-33 11-62 BT1-264 11-33 11-66 BT1-265 11-33 11-69 BT1-266 11-33 11-70 BT1-267 11-33 11-71 BT1-268 11-33 11-72 BT1-269 11-33 11-74 BT1-270 11-33 11-76 BT1-271 11-33 11-78 BT1-272 11-33 11-84 BT1-273 11-33 11-85 BT1-274 11-33 11-86 BT1-275 11-33 11-92 BT1-276 11-37 11-39 BT1-277 11-37 11-42 BT1-278 11-37 11-44 BT1-279 11-37 11-50 BT1-280 11-37 11-53 BT1-281 11-37 11-60 BT1-282 11-37 11-62 BT1-283 11-37 11-66 BT1-284 11-37 11-69 BT1-285 11-37 11-70 BT1-286 11-37 11-71 BT1-287 11-37 11-72 BT1-288 11-37 11-74 BT1-289 11-37 11-76 BT1-290 11-37 11-78

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VT1-291 11-37 11-84 BT1-292 11-37 11-85 BT1-293 11-37 11-86 BT1-294 11-37 11-92 BT1-295 11-39 11-42 BT1-296 11-39 11-44 BT1-297 11-39 11-50 BT1-298 11-39 11-53 BT1-299 11-39 11-60 BT1-300 11-39 11-62 BT1-301 11-39 11-66 BT1-302 11-39 11-69 BT1-303 11-39 11-70 BT1-304 11-39 11-71 BT1-305 11-39 11-72 BT1-306 11-39 11-74 BT1-307 11-39 11-76 BT1-308 11-39 11-78 BT1-309 11-39 11-84 BT1-310 11-39 11-85 BT1-311 11-39 11-86 BT1-312 11-39 11-92 BT1-313 11-42 11-44 BT1-314 11-42 11-50 BT1-315 11-42 11-53 BT1-316 11-42 11-60 BT1-317 11-42 11-62 BT1-318 11-42 11-66 BT1-319 11-42 11-69 BT1-320 11-42 11-70 BT1-321 11-42 11-71 BT1-322 11-42 11-72 BT1-323 11-42 11-74 BT1-324 11-42 11-76 BT1-325 11-42 11-78 BT1-326 11-42 11-84 BT1-327 11-42 11-85 BT1-328 11-42 11-86 BT1-329 11-42 11-92 BT1-330 11-44 11-50 BT1-331 11-44 11-53 BT1-332 11-44 11-60 BT1-333 11-44 11-62 BT1-334 11-44 11-66 BT1-335 11-44 11-69 BT1-336 11-44 11-70

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VT1-337 11-44 11-71 BT1-338 11-44 11-72 BT1-339 11-44 11-74 BT1-340 11-44 11-76 BT1-341 11-44 11-78 BT1-342 11-44 11-84 BT1-343 11-44 11-85 BT1-344 11-44 11-86 BT1-345 11-44 11-92 BT1-346 11-50 11-53 BT1-347 11-50 11-60 BT1-348 11-50 11-62 BT1-349 11-50 11-66 BT1-350 11-50 11-69 BT1-351 11-50 11-70 BT1-352 11-50 11-71 BT1-353 11-50 11-72 BT1-354 11-50 11-74 BT1-355 11-50 11-76 BT1-356 11-50 11-78 BT1-357 11-50 11-84 BT1-358 11-50 11-85 BT1-359 11-50 11-86 BT1-360 11-50 11-92 BT1-361 11-53 11-60 BT1-362 11-53 11-62 BT1-363 11-53 11-66 BT1-364 11-53 11-69 BT1-365 11-53 11-70 BT1-366 11-53 11-71 BT1-367 11-53 11-72 BT1-368 11-53 11-74 BT1-369 11-53 11-76 BT1-370 11-53 11-78 BT1-371 11-53 11-84 BT1-372 11-53 11-85 BT1-373 11-53 11-86 BT1-374 11-53 11-92 BT1-375 11-60 11-62 BT1-376 11-60 11-66 BT1-377 11-60 11-69 BT1-378 11-60 11-70 BT1-379 11-60 11-71 BT1-380 11-60 11-72 BT1-381 11-60 11-74 BT1-382 11-60 11-76

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VT1-383 11-60 11-78 BT1-384 11-60 11-84 BT1-385 11-60 11-85 BT1-386 11-60 11-86 BT1-387 11-60 11-92 BT1-388 11-62 11-66 BT1-389 11-62 11-69 BT1-390 11-62 11-70 BT1-391 11-62 11-71 BT1-392 11-62 11-72 BT1-393 11-62 11-74 BT1-394 11-62 11-76 BT1-395 11-62 11-78 BT1-396 11-62 11-84 BT1-397 11-62 11-85 BT1-398 11-62 11-86 BT1-399 11-62 11-92 BT1-400 11-66 11-69 BT1-401 11-66 11-70 BT1-402 11-66 11-71 BT1-403 11-66 11-72 BT1-404 11-66 11-74 BT1-405 11-66 11-76 BT1-406 11-66 11-78 BT1-407 11-66 11-84 BT1-408 11-66 11-85 BT1-409 11-66 11-86 BT1-410 11-66 11-92 BT1-411 11-69 11-70 BT1-412 11-69 11-71 BT1-413 11-69 11-72 BT1-414 11-69 11-74 BT1-415 11-69 11-76 BT1-416 11-69 11-78 BT1-417 11-69 11-84 BT1-418 11-69 11-85 BT1-419 11-69 11-86 BT1-420 11-69 11-92 BT1-421 11-70 11-71 BT1-422 11-70 11-72 BT1-423 11-70 11-74 BT1-424 11-70 11-76 BT1-425 11-70 11-78 BT1-426 11-70 11-84 BT1-427 11-70 11-85 BT1-428 11-70 11-86

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VT1-429 11-70 11-92 BT1-430 11-71 11-72 BT1-431 11-71 11-74 BT1-432 11-71 11-76 BT1-433 11-71 11-78 BT1-434 11-71 11-84 BT1-435 11-71 11-85 BT1-436 11-71 11-86 BT1-437 11-71 11-92 BT1-438 11-72 11-74 BT1-439 11-74 11-76 BT1-440 11-74 11-78 BT1-441 11-74 11-84 BT1-442 11-74 11-85 BT1-443 11-74 11-86 BT1-444 11-74 11-92 BT1-445 11-76 11-78 BT1-446 11-76 11-84 BT1-447 11-76 11-85 BT1-448 11-76 11-86 BT1-449 11-76 11-92 BT1-450 11-78 11-84 BT1-451 11-78 11-85 BT1-452 11-78 11-86 BT1-453 11-78 11-92 BT1-454 11-84 11-85 BT1-455 11-84 11-86 BT1-456 11-84 11-92 BT1-457 11-85 11-86 BT1-458 11-85 11-92 BT1-459 11-86 11-92 BT1-460 11-15 11-66 BT1-461 11-15 II-9 BT1-462 11-15 II-11 BT1-463 11-15 11-17 BT1-464 11-15 11-18 BT1-465 11-15 11-20 BT1-466 11-15 11-25 BT1-467 11-15 11-43 BT1-468 11-15 11-54 BT1-469 11-15 11-61 BT1-470 11-15 11-98 BT1-471 11-15 11-99 BT1-472 11-15 II-100 BT1-473 11-15 11-101 BT1-474 11-15 11-102 BT1-475 11-38 11-66 BT1-476 11-38 II-9 BT1-477 11-38 II-11 BT1-478 11-38 11-17 BT1-479 11-38 11-18 BT1-480 11-38 11-20 BT1-481 11-38 11-25 BT1-482 11-38 11-43 BT1-483 11-38 11-54 BT1-484 11-38 11-61 BT1-485 11-38 11-98 BT1-486 11-38 11-99 BT1-487 11-38 11-100 BT1-488 11-38 11-101 BT1-489 11-38 11-102 BT1-490 11-60 11-66 BT1-491 11-60 II-9 BT1-492 11-60 II-11 BT1-493 11-60 11-17 BT1-494 11-60 11-18

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BT1-495 P-60 P-20 BT1-496 P-60 P-25 BT1-497 P-60 P-43 BT1-498 P-60 P-54 VT1-499 P-60 P-61 BT1-500 P-60 P-98 BT1-501 P-60 P-99 BT1-502 P-60 P-100 BT1-503 P-60 P-101 BT1-504 P-60 II-102 BT1-505 P-76 P-66 BT1-506 P-76 P-9 BT1-507 P-76 II-I BT1-508 P-76 II-17 BT1-509 P-76 II-18 BT1-510 P-76 P-20 BT1-511 P-76 P-25 BT1-512 P-76 P-43 BT1-513 P-76 P-54 BT1-514 P-76 P-61 BT1-515 P-76 P-98 BT1-516 P-76 P-99 BT1-517 P-76 II-100 BT1-518 P-76 P-101 BT1-519 P-76 II-102 BT1-520 P-78 P-66 BT1-521 P-78 P-9 BT1-522 P-78 II-I VT1-523 P-78 II-17 BT1-524 P-78 II-18 BT1-525 P-78 P-20 BT1-526 P-78 P-25 BT1-527 P-78 P-43 VT1-528 P-78 II-5 4 BT1-529 P-78 P-61 BT1-530 P-78 P-98 BT1-531 P-78 P-99 BT1-532 P-78 II-100 BT1-533 P-78 P-101 BT1-534 P-78 II-102

Also particularly preferred compositions are three-component compositions in which component I is as defined above, i.e. compound I, in particular a compound selected from compounds I-1, I-3, I-4 and I-5, or from any group of compounds I described in detail above, component II is selected from

N-azoxystrobin

P-5 benzovindiflupir

P-6 Bixafen

P-7 Boskalid

P-8 carbendazim

II-11 chlorothalonil

P-16 cyprodinil

P-21 difenokonazol

P-26 epoxyconazole

P-32 fenpropimorph

P-33 fluazinam

P-37 fluoxastrobin

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P-39fluzylazole

P-42 fluxapiroxad

P-44 fosetyl-A1

P-50 izopirazam

P-53 Kresoxim-methyl

P-60 metconazole

P-62 metrafenone

P-66 Pyraclostrobin

P-69 phosphorous acid

P-70 potassium salt of phosphorous acid

P-71 sodium phosphate salt

P-72 penthiopyrad

P-74 prokhloraz

P-76 propiconazole

P-78 Prothioconazole

P-84 spiroxamine

P-85 sulfur

P-86 tebuconazole

P-92 Trif Loxistrobin and Component III is a growth regulator selected from:

II-1a mepiquat chloride

P-2a hlormekv chloride

T and W and trineksapak-ethyl

P-4a prohexadione-calcium

P-5a is the phone

Particularly preferred compositions of these compositions are given in table. T2, where each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized three component composition. According to one particular aspect, these are triple compositions, each of which contains only these three components as an active compound. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. T2: three-part compositions containing component I, fungicidal component II and growth regulator as component III.

T2 table

composition I II III T2-1 1-1 Fz II-1a T2-2 1-1 II-5 II-1a T2-3 1-1 P-6 II-1a T2-4 1-1 P-7 II-1a T2-5 1-1 II-8 II-1a T2-6 1-1 II II-1a T2-7 1-1 II-16 II-1a T2-8 1-1 P-21 II-1a T2-9 1-1 P-26 II-1a T2-10 1-1 P-32 II-1a T2-11 1-1 P-33 II-1a T2-12 1-1 P-37 II-1a T2-13 1-1 P-39 II-1a T2-14 1-1 P-42 II-1a T2-15 1-1 P-44 II-1a

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T2-16 1-1 11-50 Ii-la T2-17 1-1 11-53 Ii-la T2-18 1-1 11-60 Ii-la T2-19 1-1 11-62 Ii-la T2-20 1-1 11-66 Ii-la T2-21 1-1 11-69 Ii-la T2-22 1-1 11-70 Ii-la T2-23 1-1 11-71 Ii-la T2-24 1-1 11-72 Ii-la T2-25 1-1 11-74 Ii-la T2-26 1-1 11-76 Ii-la T2-27 1-1 11-78 Ii-la T2-28 1-1 11-84 Ii-la T2-29 1-1 11-85 Ii-la T2-30 1-1 11-86 Ii-la T2-31 1-1 11-92 Ii-la T2-32 1-1 II-3 II-2a T2-33 1-1 II-5 II-2a T2-34 1-1 II-6 II-2a T2-35 1-1 II-7 II-2a T2-36 1-1 II-8 II-2a T2-37 1-1 II-11 II-2a T2-38 1-1 11-16 II-2a T2-39 1-1 11-21 II-2a T2-40 1-1 11-26 II-2a T2-41 1-1 11-32 II-2a T2-42 1-1 11-33 II-2a T2-43 1-1 11-37 II-2a T2-44 1-1 11-39 II-2a T2-45 1-1 11-42 II-2a T2-46 1-1 11-44 II-2a T2-47 1-1 11-50 II-2a T2-48 1-1 11-53 II-2a T2-49 1-1 11-60 II-2a T2-50 1-1 11-62 II-2a T2-51 1-1 11-66 II-2a T2-52 1-1 11-69 II-2a T2-53 1-1 11-70 II-2a T2-54 1-1 11-71 II-2a T2-55 1-1 11-72 II-2a T2-56 1-1 11-74 II-2a T2-57 1-1 11-76 II-2a T2-58 1-1 11-78 II-2a T2-59 1-1 11-84 II-2a T2-60 1-1 11-85 II-2a T2-61 1-1 11-86 II-2a T2-62 1-1 11-92 II-2a T2-63 1-1 II-3 II-3a T2-64 1-1 II-5 II-3a T2-65 1-1 II-6 II-3a T2-66 1-1 II-7 II-3a T2-67 1-1 II-8 II-3a T2-68 1-1 II-11 II-3a T2-69 1-1 11-16 II-3a T2-70 1-1 11-21 II-3a T2-71 1-1 11-26 II-3a T2-72 1-1 11-32 II-3a T2-73 1-1 11-33 II-3a T2-74 1-1 11-37 II-3a T2-75 1-1 11-39 II-3a T2-76 1-1 11-42 II-3a

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T2-77 1-1 11-44 II-3a T2-78 1-1 11-50 II-3a T2-79 1-1 11-53 II-3a T2-80 1-1 11-60 II-3a T2-81 1-1 11-62 II-3a T2-82 1-1 11-66 II-3a T2-83 1-1 11-69 II-3a T2-84 1-1 11-70 II-3a T2-85 1-1 11-71 II-3a T2-86 1-1 11-72 II-3a T2-87 1-1 11-74 II-3a T2-88 1-1 11-76 II-3a T2-89 1-1 11-78 II-3a T2-90 1-1 11-84 II-3a T2-91 1-1 11-85 II-3a T2-92 1-1 11-86 II-3a T2-93 1-1 11-92 II-3a T2-94 1-1 II-3 II-4a T2-95 1-1 II-5 II-4a T2-96 1-1 II-6 II-4a T2-97 1-1 II-7 II-4a T2-98 1-1 II-8 II-4a T2-99 1-1 II-11 II-4a T2-100 1-1 11-16 II-4a T2-101 1-1 11-21 II-4a T2-102 1-1 11-26 II-4a T2-103 1-1 11-32 II-4a T2-104 1-1 11-33 II-4a T2-105 1-1 11-37 II-4a T2-106 1-1 11-39 II-4a T2-107 1-1 11-42 II-4a T2-108 1-1 11-44 II-4a T2-109 1-1 11-50 II-4a T2-110 1-1 11-53 II-4a T2-111 1-1 11-60 II-4a T2-112 1-1 11-62 II-4a T2-113 1-1 11-66 II-4a T2-114 1-1 11-69 II-4a T2-115 1-1 11-70 II-4a T2-116 1-1 11-71 II-4a T2-117 1-1 11-72 II-4a T2-118 1-1 11-74 II-4a T2-119 1-1 11-76 II-4a T2-120 1-1 11-78 II-4a T2-121 1-1 11-84 II-4a T2-122 1-1 11-85 II-4a

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T2-123 1-1 11-86 II-4a T2-124 1-1 11-92 II-4a T2-125 1-1 II-3 II-5a T2-126 1-1 II-5 II-5a T2-127 1-1 II-6 II-5a T2-128 1-1 II-7 II-5a T2-129 1-1 II-8 II-5a T2-130 1-1 II-11 II-5a T2-131 1-1 11-16 II-5a T2-132 1-1 11-21 II-5a T2-133 1-1 11-26 II-5a T2-134 1-1 11-32 II-5a T2-135 1-1 11-33 II-5a T2-136 1-1 11-37 II-5a T2-137 1-1 11-39 II-5a T2-138 1-1 11-42 II-5a T2-139 1-1 11-44 II-5a T2-140 1-1 11-50 II-5a T2-141 1-1 11-53 II-5a T2-142 1-1 11-60 II-5a T2-143 1-1 11-62 II-5a T2-144 1-1 11-66 II-5a T2-145 1-1 11-69 II-5a T2-146 1-1 11-70 II-5a T2-147 1-1 11-71 II-5a T2-148 1-1 11-72 II-5a T2-149 1-1 11-74 II-5a T2-150 1-1 11-76 II-5a T2-151 1-1 11-78 II-5a T2-152 1-1 11-84 II-5a T2-153 1-1 11-85 II-5a T2-154 1-1 11-86 II-5a T2-155 1-1 11-92 II-5a T2-156 1-5 II-3 Ii-la T2-157 1-5 II-5 Ii-la T2-158 1-5 II-6 Ii-la T2-159 1-5 II-7 Ii-la T2-160 1-5 II-8 Ii-la T2-161 1-5 II-11 Ii-la T2-162 1-5 11-16 Ii-la T2-163 1-5 11-21 Ii-la T2-164 1-5 11-26 Ii-la T2-165 1-5 11-32 Ii-la T2-166 1-5 11-33 Ii-la T2-167 1-5 11-37 Ii-la T2-168 1-5 11-39 Ii-la

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T2-169 1-5 P-42 II-1a T2-170 1-5 P-44 II-1a T2-171 1-5 II-50 II-1a T2-172 1-5 II-53 II-1a T2-173 1-5 P-60 II-1a T2-174 1-5 P-62 II-1a T2-175 1-5 P-66 II-1a T2-176 1-5 P-69 II-1a T2-177 1-5 P-70 II-1a T2-178 1-5 P-71 II-1a T2-179 1-5 P-72 II-1a T2-180 1-5 P-74 II-1a T2-181 1-5 P-76 II-1a T2-182 1-5 P-78 II-1a T2-183 1-5 P-84 II-1a T2-184 1-5 II-8 5 II-1a T2-185 1-5 II-8 6 II-1a T2-186 1-5 P-92 II-1a T2-187 1-5 Fz P-2a T2-188 1-5 II-5 P-2a T2-189 1-5 P-6 P-2a T2-190 1-5 P-7 P-2a T2-191 1-5 II-8 P-2a T2-192 1-5 II-I P-2a T2-193 1-5 II-16 P-2a T2-194 1-5 P-21 P-2a T2-195 1-5 P-26 P-2a T2-196 1-5 P-32 P-2a T2-197 1-5 P-33 P-2a T2-198 1-5 P-37 P-2a T2-199 1-5 P-39 P-2a T2-200 1-5 P-42 P-2a T2-201 1-5 P-44 P-2a T2-202 1-5 II-50 P-2a T2-203 1-5 II-53 P-2a T2-204 1-5 P-60 P-2a T2-205 1-5 P-62 P-2a T2-206 1-5 P-66 P-2a T2-207 1-5 P-69 P-2a T2-208 1-5 P-70 P-2a T2-209 1-5 P-71 P-2a T2-210 1-5 P-72 P-2a T2-211 1-5 P-74 P-2a T2-212 1-5 P-76 P-2a T2-213 1-5 P-78 P-2a T2-214 1-5 P-84 P-2a

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T2-215 1-5 II-8 5 P-2a T2-216 1-5 II-8 6 P-2a T2-217 1-5 P-92 P-2a T2-218 1-5 Fz Pz T2-219 1-5 II-5 Pz T2-220 1-5 P-6 Pz T2-221 1-5 P-7 Pz T2-222 1-5 II-8 Pz T2-223 1-5 II-I Pz T2-224 1-5 II-16 Pz T2-225 1-5 P-21 Pz T2-226 1-5 P-26 Pz T2-227 1-5 P-32 Pz T2-228 1-5 P-ZZ Pz T2-229 1-5 P-37 Pz T2-230 1-5 P-39 Pz T2-231 1-5 P-42 Pz T2-232 1-5 P-44 Pz T2-233 1-5 II-50 Pz T2-234 1-5 II-53 Pz T2-235 1-5 P-60 Pz T2-236 1-5 P-62 Pz T2-237 1-5 P-66 Pz T2-238 1-5 P-69 Pz T2-239 1-5 P-70 Pz T2-240 1-5 P-71 Pz T2-241 1-5 P-72 Pz T2-242 1-5 P-74 Pz T2-243 1-5 P-76 Pz T2-244 1-5 P-78 Pz T2-245 1-5 P-84 Pz T2-246 1-5 II-8 5 Pz T2-247 1-5 II-8 6 Pz T2-248 1-5 P-92 Pz T2-249 1-5 Fz P-4a T2-250 1-5 II-5 P-4a T2-251 1-5 P-6 P-4a T2-252 1-5 P-7 P-4a T2-253 1-5 II-8 P-4a T2-254 1-5 II-I P-4a T2-255 1-5 II-16 P-4a T2-256 1-5 P-21 P-4a T2-257 1-5 P-26 P-4a T2-258 1-5 P-32 P-4a T2-259 1-5 P-ZZ P-4a T2-260 1-5 P-37 P-4a

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T2-261 1-5 P-39 P-4a T2-262 1-5 P-42 P-4a T2-263 1-5 P-44 P-4a T2-264 1-5 II-50 P-4a T2-265 1-5 II-53 P-4a T2-266 1-5 P-60 P-4a T2-267 1-5 P-62 P-4a T2-268 1-5 P-66 P-4a T2-269 1-5 P-69 P-4a T2-270 1-5 P-70 P-4a T2-271 1-5 P-71 P-4a T2-272 1-5 P-72 P-4a T2-273 1-5 P-74 P-4a T2-274 1-5 P-76 P-4a T2-275 1-5 P-78 P-4a T2-276 1-5 P-84 P-4a T2-277 1-5 II-8 5 P-4a T2-278 1-5 II-8 6 P-4a T2-279 1-5 P-92 P-4a T2-280 1-5 Fz P-5a T2-281 1-5 II-5 P-5a T2-282 1-5 P-6 P-5a T2-283 1-5 P-7 P-5a T2-284 1-5 II-8 P-5a T2-285 1-5 II-I P-5a T2-286 1-5 II-16 P-5a T2-287 1-5 P-21 P-5a T2-288 1-5 P-26 P-5a T2-289 1-5 P-32 P-5a T2-290 1-5 P-33 P-5a T2-291 1-5 P-37 P-5a T2-292 1-5 P-39 P-5a T2-293 1-5 P-42 P-5a T2-294 1-5 P-44 P-5a T2-295 1-5 II-50 P-5a T2-296 1-5 II-53 P-5a T2-297 1-5 P-60 P-5a T2-298 1-5 P-62 P-5a T2-299 1-5 P-66 P-5a T2-300 1-5 P-69 P-5a T2-301 1-5 P-70 P-5a T2-302 1-5 P-71 P-5a T2-303 1-5 P-72 P-5a T2-304 1-5 P-74 P-5a T2-305 1-5 P-76 P-5a T2-306 1-5 P-78 P-5a

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T2-307 1-5 P-84 P-5a T2-308 1-5 II-8 5 P-5a T2-309 1-5 II-8 6 P-5a T2-310 1-5 P-92 P-5a T2-311 1-3 P-3 II-1a T2-312 1-3 II-5 II-1a T2-313 1-3 P-6 II-1a T2-314 1-3 P-7 II-1a T2-315 1-3 II-8 II-1a T2-316 1-3 II-I II-1a T2-317 1-3 II-16 II-1a T2-318 1-3 P-21 II-1a T2-319 1-3 P-26 II-1a T2-320 1-3 P-32 II-1a T2-321 1-3 P-33 II-1a T2-322 1-3 P-37 II-1a T2-323 1-3 P-39 II-1a T2-324 1-3 P-42 II-1a T2-325 1-3 P-44 II-1a T2-326 1-3 II-50 II-1a T2-327 1-3 II-53 II-1a T2-328 1-3 P-60 II-1a T2-329 1-3 P-62 II-1a T2-330 1-3 P-66 II-1a T2-331 1-3 P-69 II-1a T2-332 1-3 P-70 II-1a T2-333 1-3 P-71 II-1a T2-334 1-3 P-72 II-1a T2-335 1-3 P-74 II-1a T2-336 1-3 P-76 II-1a T2-337 1-3 P-78 II-1a T2-338 1-3 P-84 II-1a T2-339 1-3 II-8 5 II-1a T2-340 1-3 II-8 6 II-1a T2-341 1-3 P-92 II-1a T2-342 1-3 P-3 P-2a T2-343 1-3 II-5 P-2a T2-344 1-3 P-6 P-2a T2-345 1-3 P-7 P-2a T2-346 1-3 II-8 P-2a T2-347 1-3 II-I P-2a T2-348 1-3 II-16 P-2a T2-349 1-3 P-21 P-2a T2-350 1-3 P-26 P-2a T2-351 1-3 P-32 P-2a T2-352 1-3 P-33 P-2a

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T2-353 1-3 P-37 P-2a T2-354 1-3 P-39 P-2a T2-355 1-3 P-42 P-2a T2-356 1-3 P-44 P-2a T2-357 1-3 II-50 P-2a T2-358 1-3 II-53 P-2a T2-359 1-3 P-60 P-2a T2-360 1-3 P-62 P-2a T2-361 1-3 P-66 P-2a T2-362 1-3 P-69 P-2a T2-363 1-3 P-70 P-2a T2-364 1-3 P-71 P-2a T2-365 1-3 P-72 P-2a T2-366 1-3 P-74 P-2a T2-367 1-3 P-76 P-2a T2-368 1-3 P-78 P-2a T2-369 1-3 P-84 P-2a T2-370 1-3 II-8 5 P-2a T2-371 1-3 II-8 6 P-2a T2-372 1-3 P-92 P-2a T2-373 1-3 P-3 P-3 and T2-374 1-3 II-5 P-3 and T2-375 1-3 P-6 P-3 and T2-376 1-3 P-7 P-3 and T2-377 1-3 II-8 P-3 and T2-378 1-3 II-I P-3 and T2-379 1-3 II-16 P-3 and T2-380 1-3 P-21 P-3 and T2-381 1-3 P-26 P-3 and T2-382 1-3 P-32 P-3 and T2-383 1-3 P-33 P-3 and T2-384 1-3 P-37 P-3 and T2-385 1-3 P-39 P-3 and T2-386 1-3 P-42 P-3 and T2-387 1-3 P-44 P-3 and T2-388 1-3 II-50 P-3 and T2-389 1-3 II-53 P-3 and T2-390 1-3 P-60 P-3 and T2-391 1-3 P-62 P-3 and T2-392 1-3 P-66 P-3 and T2-393 1-3 P-69 P-3 and T2-394 1-3 P-70 P-3 and T2-395 1-3 P-71 P-3 and T2-396 1-3 P-72 P-3 and T2-397 1-3 P-74 P-3 and T2-398 1-3 P-76 P-3 and

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T2-399 1-3 P-78 P-3 and T2-400 1-3 P-84 P-3 and T2-401 1-3 II-8 5 P-3 and T2-402 1-3 II-8 6 P-3 and T2-403 1-3 P-92 P-3 and T2-404 1-3 P-3 P-4a T2-405 1-3 II-5 P-4a T2-406 1-3 P-6 P-4a T2-407 1-3 P-7 P-4a T2-408 1-3 II-8 P-4a T2-409 1-3 II-I P-4a T2-410 1-3 II-16 P-4a T2-411 1-3 P-21 P-4a T2-412 1-3 P-26 P-4a T2-413 1-3 P-32 P-4a T2-414 1-3 P-33 P-4a T2-415 1-3 P-37 P-4a T2-416 1-3 P-39 P-4a T2-417 1-3 P-42 P-4a T2-418 1-3 P-44 P-4a T2-419 1-3 II-50 P-4a T2-420 1-3 II-53 P-4a T2-421 1-3 P-60 P-4a T2-422 1-3 P-62 P-4a T2-423 1-3 P-66 P-4a T2-424 1-3 P-69 P-4a T2-425 1-3 P-70 P-4a T2-426 1-3 P-71 P-4a T2-427 1-3 P-72 P-4a T2-428 1-3 P-74 P-4a T2-429 1-3 P-76 P-4a T2-430 1-3 P-78 P-4a T2-431 1-3 P-84 P-4a T2-432 1-3 II-8 5 P-4a T2-433 1-3 II-8 6 P-4a T2-434 1-3 P-92 P-4a T2-435 1-3 P-3 P-5a T2-436 1-3 II-5 P-5a T2-437 1-3 P-6 P-5a T2-438 1-3 P-7 P-5a T2-439 1-3 II-8 P-5a T2-440 1-3 II-I P-5a T2-441 1-3 II-16 P-5a T2-442 1-3 P-21 P-5a T2-443 1-3 P-26 P-5a T2-444 1-3 P-32 P-5a

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T2-445 1-3 P-33 P-5a T2-446 1-3 P-37 P-5a T2-447 1-3 P-39 P-5a T2-448 1-3 P-42 P-5a T2-449 1-3 P-44 P-5a T2-450 1-3 II-50 P-5a T2-451 1-3 II-53 P-5a T2-452 1-3 P-60 P-5a T2-453 1-3 P-62 P-5a T2-454 1-3 P-66 P-5a T2-455 1-3 P-69 P-5a T2-456 1-3 P-70 P-5a T2-457 1-3 P-71 P-5a T2-458 1-3 P-72 P-5a T2-459 1-3 P-74 P-5a T2-460 1-3 P-76 P-5a T2-461 1-3 P-78 P-5a T2-462 1-3 P-84 P-5a T2-463 1-3 II-8 5 P-5a T2-464 1-3 II-8 6 P-5a T2-465 1-3 P-92 P-5a T2-466 1-4 P-3 II-1a T2-467 1-4 II-5 II-1a T2-468 1-4 P-6 II-1a T2-469 1-4 P-7 II-1a T2-470 1-4 II-8 II-1a T2-471 1-4 II-I II-1a T2-472 1-4 II-16 II-1a T2-473 1-4 P-21 II-1a T2-474 1-4 P-26 II-1a T2-475 1-4 P-32 II-1a T2-476 1-4 P-33 II-1a T2-477 1-4 P-37 II-1a T2-478 1-4 P-39 II-1a T2-479 1-4 P-42 II-1a T2-480 1-4 P-44 II-1a T2-481 1-4 II-50 II-1a T2-482 1-4 II-53 II-1a T2-483 1-4 P-60 II-1a T2-484 1-4 P-62 II-1a T2-485 1-4 P-66 II-1a T2-486 1-4 P-69 II-1a T2-487 1-4 P-70 II-1a T2-488 1-4 P-71 II-1a T2-489 1-4 P-72 II-1a T2-490 1-4 P-74 II-1a

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T2-491 1-4 P-76 II-1a T2-492 1-4 P-78 II-1a T2-493 1-4 P-84 II-1a T2-494 1-4 II-8 5 II-1a T2-495 1-4 II-8 6 II-1a T2-496 1-4 P-92 II-1a T2-497 1-4 P-3 P-2a T2-498 1-4 II-5 P-2a T2-499 1-4 P-6 P-2a T2-500 1-4 P-7 P-2a T2-501 1-4 II-8 P-2a T2-502 1-4 II-I P-2a T2-503 1-4 II-16 P-2a T2-504 1-4 P-21 P-2a T2-505 1-4 P-26 P-2a T2-506 1-4 P-32 P-2a T2-507 1-4 P-33 P-2a T2-508 1-4 P-37 P-2a T2-509 1-4 P-39 P-2a T2-510 1-4 P-42 P-2a T2-511 1-4 P-44 P-2a T2-512 1-4 II-50 P-2a T2-513 1-4 II-53 P-2a T2-514 1-4 P-60 P-2a T2-515 1-4 P-62 P-2a T2-516 1-4 P-66 P-2a T2-517 1-4 P-69 P-2a T2-518 1-4 P-70 P-2a T2-519 1-4 P-71 P-2a T2-520 1-4 P-72 P-2a T2-521 1-4 P-74 P-2a T2-522 1-4 P-76 P-2a T2-523 1-4 P-78 P-2a T2-524 1-4 P-84 P-2a T2-525 1-4 II-8 5 P-2a T2-526 1-4 II-8 6 P-2a T2-527 1-4 P-92 P-2a T2-528 1-4 P-3 P-3 and T2-529 1-4 II-5 P-3 and T2-530 1-4 P-6 P-3 and T2-531 1-4 P-7 P-3 and T2-532 1-4 II-8 P-3 and T2-533 1-4 II-I P-3 and T2-534 1-4 II-16 P-3 and T2-535 1-4 P-21 P-3 and T2-536 1-4 P-26 P-3 and

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T2-537 1-4 P-32 Pz T2-538 1-4 P-ZZ Pz T2-539 1-4 P-37 Pz T2-540 1-4 P-39 Pz T2-541 1-4 P-42 Pz T2-542 1-4 P-44 Pz T2-543 1-4 II-50 Pz T2-544 1-4 II-53 Pz T2-545 1-4 P-60 Pz T2-546 1-4 P-62 Pz T2-547 1-4 P-66 Pz T2-548 1-4 P-69 Pz T2-549 1-4 P-70 Pz T2-550 1-4 P-71 Pz T2-551 1-4 P-72 Pz T2-552 1-4 P-74 Pz T2-553 1-4 P-76 Pz T2-554 1-4 P-78 Pz T2-555 1-4 P-84 Pz T2-556 1-4 II-8 5 Pz T2-557 1-4 II-8 6 Pz T2-558 1-4 P-92 Pz T2-559 1-4 Fz P-4a T2-560 1-4 II-5 P-4a T2-561 1-4 P-6 P-4a T2-562 1-4 P-7 P-4a T2-563 1-4 II-8 P-4a T2-564 1-4 II-11 P-4a T2-565 1-4 II-16 P-4a T2-566 1-4 P-21 P-4a T2-567 1-4 P-26 P-4a T2-568 1-4 P-32 P-4a T2-569 1-4 P-ZZ P-4a T2-570 1-4 P-37 P-4a T2-571 1-4 P-39 P-4a T2-572 1-4 P-42 P-4a T2-573 1-4 P-44 P-4a T2-574 1-4 II-50 P-4a T2-575 1-4 II-53 P-4a T2-576 1-4 P-60 P-4a T2-577 1-4 P-62 P-4a T2-578 1-4 P-66 P-4a T2-579 1-4 P-69 P-4a T2-580 1-4 P-70 P-4a T2-581 1-4 P-71 P-4a T2-582 1-4 P-72 P-4a T2-583 1-4 P-74 P-4a T2-584 1-4 P-76 P-4a T2-585 1-4 P-78 P-4a T2-586 1-4 P-84 P-4a T2-587 1-4 II-8 5 P-4a T2-588 1-4 II-8 6 P-4a T2-589 1-4 P-92 P-4a T2-590 1-4 Fz P-5a T2-591 1-4 II-5 P-5a T2-592 1-4 P-6 P-5a T2-593 1-4 P-7 P-5a T2-594 1-4 II-8 P-5a T2-595 1-4 II-I P-5a T2-596 1-4 II-16 P-5a T2-597 1-4 P-21 P-5a T2-598 1-4 P-26 P-5a T2-599 1-4 P-32 P-5a T2-600 1-4 P-ZZ P-5a T2-601 1-4 P-37 P-5a

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T2-602 1-4 P-39 P-5a T2-603 1-4 P-42 P-5a T2-604 1-4 P-44 P-5a T2-605 1-4 P-50 P-5a T2-606 1-4 P-53 P-5a T2-607 1-4 P-60 P-5a T2-608 1-4 P-62 P-5a T2-609 1-4 P-66 P-5a T2-610 1-4 P-69 P-5a T2-611 1-4 P-70 P-5a T2-612 1-4 P-71 P-5a T2-613 1-4 P-72 P-5a T2-614 1-4 P-74 P-5a T2-615 1-4 P-76 P-5a T2-616 1-4 P-78 P-5a T2-617 1-4 P-84 P-5a T2-618 1-4 P-85 P-5a T2-619 1-4 P-86 P-5a T2-620 1-4 P-92 P-5a

In tab. T2 in accordance with specific embodiments of the invention, the corresponding component I is present in the form of (S) enantiomer, in which each line corresponds to one embodiment of the compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, these are ternary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions individualized in this table represents embodiments of the present invention (S) enantiomer.

In tab. T2, according to another specific embodiment of the invention, the corresponding component I is present in the form of (R) enantiomer, in which each line corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, these are ternary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions individualized in this table represents embodiments of the present invention (R) enantiomer.

One other aspect of the present invention is a new two-component compositions containing component II and component III listed in the above table. T2, i.e. the compositions indicated in the following table. BT2 because they are new.

Tab. VT2: two-component compositions containing fungicidal component II and growth regulator as component III. Each line of lines from VT2-1 to BT1-155 corresponds to one separate individualized composition. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

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Table BT2

composition II III VT2-1 Fz II-1a VT2-2 P-5 II-1a VT2-3 P-6 II-1a VT2-4 P-7 II-1a VT2-5 P-8 II-1a VT2-6 II-I II-1a VT2-7 II-16 II-1a VT2-8 P-21 II-1a VT2-9 P-26 II-1a VT2-10 P-32 II-1a VT2-11 P-33 II-1a VT2-12 P-37 II-1a VT2-13 P-39 II-1a VT2-14 P-42 II-1a VT2-15 P-44 II-1a VT2-16 P-50 II-1a VT2-17 P-53 II-1a VT2-18 P-60 II-1a VT2-19 P-62 II-1a VT2-20 P-66 II-1a VT2-21 P-69 II-1a VT2-22 P-70 II-1a VT2-23 P-71 II-1a VT2-24 P-72 II-1a VT2-25 P-74 II-1a VT2-26 P-76 II-1a VT2-27 P-78 II-1a VT2-28 P-84 II-1a VT2-29 P-85 II-1a VT2-30 P-86 II-1a VT2-31 P-92 II-1a VT2-32 Fz P-2a VT2-33 P-5 P-2a VT2-34 P-6 P-2a VT2-35 P-7 P-2a VT2-36 P-8 P-2a VT2-37 II-I P-2a VT2-38 II-16 P-2a VT2-39 P-21 P-2a VT2-40 P-26 P-2a VT2-41 P-32 P-2a VT2-42 P-33 P-2a VT2-43 P-37 P-2a VT2-44 P-39 P-2a VT2-45 P-42 P-2a VT2-46 P-44 P-2a VT2-47 P-50 P-2a VT2-48 P-53 P-2a VT2-49 P-60 P-2a VT2-50 P-62 P-2a VT2-51 P-66 P-2a VT2-52 P-69 P-2a VT2-53 P-70 P-2a VT2-54 P-71 P-2a VT2-55 P-72 P-2a VT2-56 P-74 P-2a VT2-57 P-76 P-2a VT2-58 P-78 P-2a

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VT2-59 P-84 P-2a VT2-60 II-8 5 P-2a VT2-61 II-8 6 P-2a VT2-62 P-92 P-2a VT2-63 P-3 P-3 and VT2-64 II-5 P-3 and VT2-65 P-6 P-3 and VT2-66 P-7 P-3 and VT2-67 II-8 P-3 and VT2-68 II-I P-3 and VT2-69 II-16 P-3 and VT2-70 P-21 P-3 and VT2-71 P-26 P-3 and VT2-72 P-32 P-3 and VT2-73 P-33 P-3 and VT2-74 P-37 P-3 and VT2-75 P-39 P-3 and VT2-76 P-42 P-3 and VT2-77 P-44 P-3 and VT2-78 II-50 P-3 and VT2-79 II-53 P-3 and VT2-80 P-60 P-3 and VT2-81 P-62 P-3 and VT2-82 P-66 P-3 and VT2-83 P-69 P-3 and VT2-84 P-70 P-3 and VT2-85 P-71 P-3 and VT2-86 P-72 P-3 and VT2-87 P-74 P-3 and VT2-88 P-76 P-3 and VT2-89 P-78 P-3 and VT2-90 P-84 P-3 and VT2-91 P-85 P-3 and VT2-92 P-86 P-3 and VT2-93 P-92 P-3 and VT2-94 P-3 P-4a VT2-95 P-5 P-4a VT2-96 P-6 P-4a VT2-97 P-7 P-4a VT2-98 P-8 P-4a VT2-99 II-I P-4a VT2-100 II-16 P-4a VT2-101 P-21 P-4a VT2-102 P-26 P-4a VT2-103 P-32 P-4a VT2-104 P-33 P-4a VT2-105 P-37 P-4a VT2-106 P-39 P-4a VT2-107 P-42 P-4a VT2-108 P-44 P-4a VT2-109 P-50 P-4a VT2-110 P-53 P-4a

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VT2-111 P-60 P-4a VT2-112 P-62 P-4a VT2-113 P-66 P-4a VT2-114 P-69 P-4a VT2-115 P-70 P-4a VT2-116 P-71 P-4a VT2-117 P-72 P-4a VT2-118 P-74 P-4a VT2-119 P-76 P-4a VT2-120 P-78 P-4a VT2-121 P-84 P-4a VT2-122 P-85 P-4a VT2-123 P-86 P-4a VT2-124 P-92 P-4a VT2-125 P-3 II-5 a VT2-126 P-5 II-5 a VT2-127 P-6 II-5 a VT2-128 P-7 II-5 a VT2-129 P-8 II-5 a VT2-130 II-I II-5 a VT2-131 II-16 II-5 a VT2-132 P-21 II-5 a VT2-133 P-26 II-5 a VT2-134 P-32 P-5a VT2-135 P-33 P-5a VT2-136 P-37 P-5a VT2-137 P-39 P-5a VT2-138 P-42 P-5a VT2-139 P-44 P-5a VT2-140 II-50 P-5a VT2-141 II-53 P-5a VT2-142 P-60 P-5a VT2-143 P-62 P-5a VT2-144 II-6 6 P-5a VT2-145 II-6 9 P-5a VT2-146 II-70 P-5a VT2-147 II-71 P-5a VT2-148 P-72 P-5a VT2-149 P-74 P-5a VT2-150 II-7 6 P-5a VT2-151 II-7 8 P-5a VT2-152 II-8 4 P-5a VT2-153 II-8 5 P-5a VT2-154 II-8 6 P-5a VT2-155 P-92 P-5a

Particularly preferred compositions are three-component compositions in which component I is as defined above, i.e. Compound I, in particular a compound selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described in detail above, and components II and III are growth regulators selected from:

II-1a mepiquat chloride

P-2a hlormekv chloride

P-For trineksapak-ethyl

P-4a prohexadione-calcium

P-5a is a phono, and components II and III differ from each other.

Particularly preferred compositions of these compositions are given in table. T3, where each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized three component composition. According to one particular aspect, these are triple compositions, each of which contains only these three components as an active compound. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. T3: three-component compositions containing component I and two plant growth regulators as component II and component III, with components II and III differing from each other.

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Table t3

composition I II III T3-1 1-1 II-1a P-2a TZ-2 1-1 II-1a P-over TZ-Z 1-1 II-1a P-4a TZ-4 1-1 II-1a P-5a T3-5 1-1 P-2a P-over T3-6 1-1 P-2a P-4a T3-7 1-1 P-2a P-5a TZ-8 1-1 P-over P-4a TZ-9 1-1 P-over P-5a TZ-10 1-1 P-4a P-5a ts-and 1-5 II-1a P-2a T3-12 1-5 II-1a P-over T3-13 1-5 II-1a P-4a T3-14 1-5 II-1a P-5a TZ-15 1-5 P-2a P-over TZ-16 1-5 P-2a P-4a TZ-17 1-5 P-2a P-5a T3-18 1-5 P-over P-4a T3-19 1-5 P-over P-5a T3-20 1-5 P-4a P-5a T3-21 1-3 II-1a P-2a T3-22 1-3 II-1a P-over T3-23 1-3 II-1a P-4a T3-24 1-3 II-1a P-5a T3-25 1-3 P-2a P-over T3-26 1-3 P-2a P-4a T3-27 1-3 P-2a P-5a T3-28 1-3 P-over P-4a T3-29 1-3 P-over P-5a ts-zo 1-3 P-4a P-5a T3-31 1-4 II-1a P-2a T3-32 1-4 II-1a P-over ts-zz 1-4 II-1a P-4a T3-34 1-4 II-1a P-5a T3-35 1-4 P-2a P-over T3-36 1-4 P-2a P-4a T3-37 1-4 P-2a P-5a T3-38 1-4 P-over P-4a T3-39 1-4 P-over P-5a T3-40 1-4 P-4a P-5a

In tab. T3 in accordance with specific embodiments of the invention, the corresponding component I is present as (S) enantiomer, in which each line corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, these are ternary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions individualized in this table represents embodiments of the present invention (S) enantiomer.

In tab. T3, according to another specific embodiment of the invention, the corresponding component I is present in the form of (R) enantiomer, in which each line corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, these are ternary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions individualized in this table represents embodiments of the present invention (R) enantiomer.

Particularly preferred compositions are three-component compositions in which component I is as defined above, i.e. Compound I, in particular a compound selected from compounds I-1, I-3, I-4 and I-5, or from any group of compounds I described in detail above; component II is selected from the following fungicidal compounds:

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N-azoxystrobin

P-5 benzovindiflupir

P-6 Bixafen

P-7 Boskalid

P-8 carbendazim

II-11 chlorothalonil

P-16 cyprodinil

P-21 difenokonazol

P-26 epoxyconazole

P-32 fenpropimorph

P-33 fluazinam

P-37 fluoxastrobin

P-39 fluzilazole

P-42 fluxapiroxad

P-44 fosetyl-A1

P-50 Isopyrazam

P-53 Kresoxim-methyl

P-60 metconazole

P-62 metrafenone

P-66 Pyraclostrobin

P-69 phosphorous acid

P-70 potassium salt of phosphorous acid

P-71 sodium phosphate salt

P-72 penthiopyrad

P-74 prokhloraz

P-76 propiconazole

P-78 Prothioconazole

P-84 spiroxamine

P-85 sulfur

P-86 tebuconazole

P-92 trifloxystrobin and component III is an insecticide selected from

P-11s clothianidin

P-20s fipronil

P-24c Imidacloprid; and

P-42c Thiamethoxam

Particularly preferred compositions of these compositions are given in table. T4, where each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized three component composition. According to one particular aspect, these are triple compositions, each of which contains only these three components as an active compound. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. T4: three-part compositions containing component I, another specific fungicidal compound as component II and an insecticide as component III.

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Table t4

composition I II III T4-1 1-1 Fz P-11s T4-2 1-1 II-5 P-11s T4-3 1-1 P-6 P-11s T4-4 1-1 P-7 P-11s T4-5 1-1 II-8 P-11s T4-6 1-1 II P-11s T4-7 1-1 II-16 P-11s T4-8 1-1 P-21 P-11s T4-9 1-1 P-26 P-11s T4-10 1-1 P-32 P-11s T4-11 1-1 P-33 P-11s T4-12 1-1 P-37 P-11s T4-13 1-1 P-39 P-11s T4-14 1-1 P-42 P-11s T4-15 1-1 P-44 P-11s T4-16 1-1 II-50 P-11s T4-17 1-1 II-53 P-11s T4-18 1-1 P-60 P-11s T4-19 1-1 P-62 P-11s T4-20 1-1 P-66 P-11s T4-21 1-1 P-69 P-11s T4-22 1-1 P-70 P-11s T4-23 1-1 P-71 P-11s T4-24 1-1 P-72 P-11s T4-25 1-1 P-74 P-11s T4-26 1-1 P-76 P-11s T4-27 1-1 P-78 P-11s T4-28 1-1 P-84 P-11s T4-29 1-1 II-8 5 P-11s T4-30 1-1 II-8 6 P-11s T4-31 1-1 P-92 P-11s T4-32 1-1 Fz P-20s T4-33 1-1 II-5 P-20s T4-34 1-1 P-6 P-20s T4-35 1-1 P-7 P-20s T4-36 1-1 II-8 P-20s T4-37 1-1 II-I P-20s T4-38 1-1 II-16 P-20s T4-39 1-1 P-21 P-20s T4-40 1-1 P-26 P-20s T4-41 1-1 P-32 P-20s T4-42 1-1 P-33 P-20s T4-43 1-1 P-37 P-20s T4-44 1-1 P-39 P-20s T4-45 1-1 P-42 P-20s T4-46 1-1 P-44 P-20s T4-47 1-1 II-50 P-20s T4-48 1-1 II-53 P-20s T4-49 1-1 P-60 P-20s T4-50 1-1 P-62 P-20s

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T4-51 1-1 11-66 II-20c T4-52 1-1 11-69 II-20c T4-53 1-1 11-70 II-20c T4-54 1-1 11-71 II-20c T4-55 1-1 11-72 II-20c T4-56 1-1 11-74 II-20c T4-57 1-1 11-76 II-20c T4-58 1-1 11-78 II-20c T4-59 1-1 11-84 II-20c T4-60 1-1 11-85 II-20c T4-61 1-1 11-86 II-20c T4-62 1-1 11-92 II-20c T4-63 1-1 II-3 II-24c T4-64 1-1 II-5 II-24c T4-65 1-1 II-6 II-24c T4-66 1-1 II-7 II-24c T4-67 1-1 II-8 II-24c T4-68 1-1 II-11 II-24c T4-69 1-1 11-16 II-24c T4-70 1-1 11-21 II-24c T4-71 1-1 11-26 II-24c T4-72 1-1 11-32 II-24c T4-73 1-1 11-33 II-24c T4-74 1-1 11-37 II-24c T4-75 1-1 11-39 II-24c T4-76 1-1 11-42 II-24c T4-77 1-1 11-44 II-24c T4-78 1-1 11-50 II-24c T4-79 1-1 11-53 II-24c T4-80 1-1 11-60 II-24c T4-81 1-1 11-62 II-24c T4-82 1-1 11-66 II-24c T4-83 1-1 11-69 II-24c T4-84 1-1 11-70 II-24c T4-85 1-1 11-71 II-24c T4-86 1-1 11-72 II-24c T4-87 1-1 11-74 II-24c T4-88 1-1 11-76 II-24c T4-89 1-1 11-78 II-24c T4-90 1-1 11-84 II-24c T4-91 1-1 11-85 II-24c T4-92 1-1 11-86 II-24c T4-93 1-1 11-92 II-24c T4-94 1-1 II-3 II-42c T4-95 1-1 II-5 II-42c T4-96 1-1 II-6 II-42c

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T4-97 1-1 II-7 II-42c T4-98 1-1 II-8 II-42c T4-99 1-1 II-11 II-42c T4-100 1-1 11-16 II-42c T4-101 1-1 11-21 II-42c T4-102 1-1 11-26 II-42c T4-103 1-1 11-32 II-42c T4-104 1-1 11-33 II-42c T4-105 1-1 11-37 II-42c T4-106 1-1 11-39 II-42c T4-107 1-1 11-42 II-42c T4-108 1-1 11-44 II-42c T4-109 1-1 11-50 II-42c T4-110 1-1 11-53 II-42c T4-111 1-1 11-60 II-42c T4-112 1-1 11-62 II-42c T4-113 1-1 11-66 II-42c T4-114 1-1 11-69 II-42c T4-115 1-1 11-70 II-42c T4-116 1-1 11-71 II-42c T4-117 1-1 11-72 II-42c T4-118 1-1 11-74 II-42c T4-119 1-1 11-76 II-42c T4-120 1-1 11-78 II-42c T4-121 1-1 11-84 II-42c T4-122 1-1 11-85 II-42c T4-123 1-1 11-86 II-42c T4-124 1-1 11-92 II-42c T4-125 1-5 II-3 Ii-llc T4-126 1-5 II-5 Ii-llc T4-127 1-5 II-6 Ii-llc T4-128 1-5 II-7 Ii-llc T4-129 1-5 II-8 Ii-llc T4-130 1-5 II-11 Ii-llc T4-131 1-5 11-16 Ii-llc T4-132 1-5 11-21 Ii-llc T4-133 1-5 11-26 Ii-llc T4-134 1-5 11-32 Ii-llc T4-135 1-5 11-33 Ii-llc T4-136 1-5 11-37 Ii-llc T4-137 1-5 11-39 Ii-llc T4-138 1-5 11-42 Ii-llc T4-139 1-5 11-44 Ii-llc T4-140 1-5 11-50 Ii-llc T4-141 1-5 11-53 Ii-llc T4-142 1-5 11-60 Ii-llc

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T4-143 1-5 P-62 P-11s T4-144 1-5 P-66 P-11s T4-145 1-5 P-69 P-11s T4-146 1-5 P-70 P-11s T4-147 1-5 P-71 P-11s T4-148 1-5 P-72 P-11s T4-149 1-5 P-74 P-11s T4-150 1-5 P-76 P-11s T4-151 1-5 P-78 P-11s T4-152 1-5 P-84 P-11s T4-153 1-5 II-8 5 P-11s T4-154 1-5 II-8 6 P-11s T4-155 1-5 P-92 P-11s T4-156 1-5 P-3 P-20s T4-157 1-5 II-5 P-20s T4-158 1-5 P-6 P-20s T4-159 1-5 P-7 P-20s T4-160 1-5 II-8 P-20s T4-161 1-5 II-I P-20s T4-162 1-5 II-16 P-20s T4-163 1-5 P-21 P-20s T4-164 1-5 P-26 P-20s T4-165 1-5 P-32 P-20s T4-166 1-5 P-33 P-20s T4-167 1-5 P-37 P-20s T4-168 1-5 P-39 P-20s T4-169 1-5 P-42 P-20s T4-170 1-5 P-44 P-20s T4-171 1-5 II-50 P-20s T4-172 1-5 II-53 P-20s T4-173 1-5 P-60 P-20s T4-174 1-5 P-62 P-20s T4-175 1-5 P-66 P-20s T4-176 1-5 P-69 P-20s T4-177 1-5 P-70 P-20s T4-178 1-5 P-71 P-20s T4-179 1-5 P-72 P-20s T4-180 1-5 P-74 P-20s T4-181 1-5 P-76 P-20s T4-182 1-5 P-78 P-20s T4-183 1-5 P-84 P-20s T4-184 1-5 II-8 5 P-20s T4-185 1-5 II-8 6 P-20s T4-186 1-5 P-92 P-20s T4-187 1-5 P-3 P-24s T4-188 1-5 II-5 P-24s

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T4-189 1-5 P-6 P-24s T4-190 1-5 P-7 P-24s T4-191 1-5 II-8 P-24s T4-192 1-5 II-I P-24s T4-193 1-5 II-16 P-24s T4-194 1-5 P-21 P-24s T4-195 1-5 P-26 P-24s T4-196 1-5 P-32 P-24s T4-197 1-5 P-33 P-24s T4-198 1-5 P-37 P-24s T4-199 1-5 P-39 P-24s T4-200 1-5 P-42 P-24s T4-201 1-5 P-44 P-24s T4-202 1-5 II-50 P-24s T4-203 1-5 II-53 P-24s T4-204 1-5 P-60 P-24s T4-205 1-5 P-62 P-24s T4-206 1-5 P-66 P-24s T4-207 1-5 P-69 P-24s T4-208 1-5 P-70 P-24s T4-209 1-5 P-71 P-24s T4-210 1-5 P-72 P-24s T4-211 1-5 P-74 P-24s T4-212 1-5 P-76 P-24s T4-213 1-5 P-78 P-24s T4-214 1-5 P-84 P-24s T4-215 1-5 II-8 5 P-24s T4-216 1-5 II-8 6 P-24s T4-217 1-5 P-92 P-24s T4-218 1-5 P-3 P-42s T4-219 1-5 II-5 P-42s T4-220 1-5 P-6 P-42s T4-221 1-5 P-7 P-42s T4-222 1-5 II-8 P-42s T4-223 1-5 II-I P-42s T4-224 1-5 II-16 P-42s T4-225 1-5 P-21 P-42s T4-226 1-5 P-26 P-42s T4-227 1-5 P-32 P-42s T4-228 1-5 P-33 P-42s T4-229 1-5 P-37 P-42s T4-230 1-5 P-39 P-42s T4-231 1-5 P-42 P-42s T4-232 1-5 P-44 P-42s T4-233 1-5 II-50 P-42s T4-234 1-5 II-53 P-42s

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T4-235 1-5 P-60 P-42s T4-236 1-5 P-62 P-42s T4-237 1-5 P-66 P-42s T4-238 1-5 P-69 P-42s T4-239 1-5 P-70 P-42s T4-240 1-5 P-71 P-42s T4-241 1-5 P-72 P-42s T4-242 1-5 P-74 P-42s T4-243 1-5 P-76 P-42s T4-244 1-5 P-78 P-42s T4-245 1-5 P-84 P-42s T4-246 1-5 II-8 5 P-42s T4-247 1-5 II-8 6 P-42s T4-248 1-5 P-92 P-42s T4-249 1-3 P-3 P-11s T4-250 1-3 II-5 P-11s T4-251 1-3 P-6 P-11s T4-252 1-3 P-7 P-11s T4-253 1-3 II-8 P-11s T4-254 1-3 II-I P-11s T4-255 1-3 II-16 P-11s T4-256 1-3 P-21 P-11s T4-257 1-3 P-26 P-11s T4-258 1-3 P-32 P-11s T4-259 1-3 P-33 P-11s T4-260 1-3 P-37 P-11s T4-261 1-3 P-39 P-11s T4-262 1-3 P-42 P-11s T4-263 1-3 P-44 P-11s T4-264 1-3 II-50 P-11s T4-265 1-3 II-53 P-11s T4-266 1-3 P-60 P-11s T4-267 1-3 P-62 P-11s T4-268 1-3 P-66 P-11s T4-269 1-3 P-69 P-11s T4-270 1-3 P-70 P-11s T4-271 1-3 P-71 P-11s T4-272 1-3 P-72 P-11s T4-273 1-3 P-74 P-11s T4-274 1-3 P-76 P-11s T4-275 1-3 P-78 P-11s T4-276 1-3 P-84 P-11s T4-277 1-3 II-8 5 P-11s T4-278 1-3 II-8 6 P-11s T4-279 1-3 P-92 P-11s T4-280 1-3 P-3 P-20s

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T4-281 1-3 II-5 P-20s T4-282 1-3 P-6 P-20s T4-283 1-3 P-7 P-20s T4-284 1-3 II-8 P-20s T4-285 1-3 II P-20s T4-286 1-3 II-16 P-20s T4-287 1-3 P-21 P-20s T4-288 1-3 P-26 P-20s T4-289 1-3 P-32 P-20s T4-290 1-3 P-33 P-20s T4-291 1-3 P-37 P-20s T4-292 1-3 P-39 P-20s T4-293 1-3 P-42 P-20s T4-294 1-3 P-44 P-20s T4-295 1-3 II-50 P-20s T4-296 1-3 II-53 P-20s T4-297 1-3 P-60 P-20s T4-298 1-3 P-62 P-20s T4-299 1-3 P-66 P-20s T4-300 1-3 P-69 P-20s T4-301 1-3 P-70 P-20s T4-302 1-3 P-71 P-20s T4-303 1-3 P-72 P-20s T4-304 1-3 P-74 P-20s T4-305 1-3 P-76 P-20s T4-306 1-3 P-78 P-20s T4-307 1-3 P-84 P-20s T4-308 1-3 II-8 5 P-20s T4-309 1-3 II-8 6 P-20s T4-310 1-3 P-92 P-20s T4-311 1-3 Fz P-24s T4-312 1-3 II-5 P-24s T4-313 1-3 P-6 P-24s T4-314 1-3 P-7 P-24s T4-315 1-3 II-8 P-24s T4-316 1-3 II-I P-24s T4-317 1-3 II-16 P-24s T4-318 1-3 P-21 P-24s T4-319 1-3 P-26 P-24s T4-320 1-3 P-32 P-24s T4-321 1-3 P-33 P-24s T4-322 1-3 P-37 P-24s T4-323 1-3 P-39 P-24s T4-324 1-3 P-42 P-24s T4-325 1-3 P-44 P-24s T4-326 1-3 II-50 P-24s

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T4-327 1-3 II-53 P-24s T4-328 1-3 P-60 P-24s T4-329 1-3 P-62 P-24s T4-330 1-3 P-66 P-24s T4-331 1-3 P-69 P-24s T4-332 1-3 P-70 P-24s T4-333 1-3 P-71 P-24s T4-334 1-3 P-72 P-24s T4-335 1-3 P-74 P-24s T4-336 1-3 P-76 P-24s T4-337 1-3 P-78 P-24s T4-338 1-3 P-84 P-24s T4-339 1-3 II-8 5 P-24s T4-340 1-3 P-86 P-24s T4-341 1-3 P-92 P-24s T4-342 1-3 Fz P-42s T4-343 1-3 II-5 P-42s T4-344 1-3 P-6 P-42s T4-345 1-3 P-7 P-42s T4-346 1-3 II-8 P-42s T4-347 1-3 II-I P-42s T4-348 1-3 II-16 P-42s T4-349 1-3 P-21 P-42s T4-350 1-3 P-26 P-42s T4-351 1-3 P-32 P-42s T4-352 1-3 P-33 P-42s T4-353 1-3 P-37 P-42s T4-354 1-3 P-39 P-42s T4-355 1-3 P-42 P-42s T4-356 1-3 P-44 P-42s T4-357 1-3 II-50 P-42s T4-358 1-3 II-53 P-42s T4-359 1-3 P-60 P-42s T4-360 1-3 P-62 P-42s T4-361 1-3 P-66 P-42s T4-362 1-3 P-69 P-42s T4-363 1-3 P-70 P-42s T4-364 1-3 P-71 P-42s T4-365 1-3 P-72 P-42s T4-366 1-3 P-74 P-42s T4-367 1-3 P-76 P-42s T4-368 1-3 P-78 P-42s T4-369 1-3 P-84 P-42s T4-370 1-3 II-8 5 P-42s T4-371 1-3 P-86 P-42s T4-372 1-3 P-92 P-42s

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T4-373 1-4 Fz P-11s T4-374 1-4 II-5 P-11s T4-375 1-4 P-6 P-11s T4-376 1-4 P-7 P-11s T4-377 1-4 II-8 P-11s T4-378 1-4 II-I P-11s T4-379 1-4 II-16 P-11s T4-380 1-4 P-21 P-11s T4-381 1-4 P-26 P-11s T4-382 1-4 P-32 P-11s T4-383 1-4 P-ZZ P-11s T4-384 1-4 P-37 P-11s T4-385 1-4 P-39 P-11s T4-386 1-4 P-42 P-11s T4-387 1-4 P-44 P-11s T4-388 1-4 II-50 P-11s T4-389 1-4 II-53 P-11s T4-390 1-4 P-60 P-11s T4-391 1-4 P-62 P-11s T4-392 1-4 P-66 P-11s T4-393 1-4 P-69 P-11s T4-394 1-4 P-70 P-11s T4-395 1-4 P-71 P-11s T4-396 1-4 P-72 P-11s T4-397 1-4 P-74 P-11s T4-398 1-4 P-76 P-11s T4-399 1-4 P-78 P-11s T4-400 1-4 P-84 P-11s T4-401 1-4 II-8 5 P-11s T4-402 1-4 II-8 6 P-11s T4-403 1-4 P-92 P-11s T4-404 1-4 Fz P-20s T4-405 1-4 II-5 P-20s T4-406 1-4 P-6 P-20s T4-407 1-4 P-7 P-20s T4-408 1-4 II-8 P-20s T4-409 1-4 II-I P-20s T4-410 1-4 II-16 P-20s T4-411 1-4 P-21 P-20s T4-412 1-4 P-26 P-20s T4-413 1-4 P-32 P-20s T4-414 1-4 P-ZZ P-20s T4-415 1-4 P-37 P-20s T4-416 1-4 P-39 P-20s T4-417 1-4 P-42 P-20s T4-418 1-4 P-44 P-20s

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T4-419 1-4 II-50 P-20s T4-420 1-4 II-53 P-20s T4-421 1-4 P-60 P-20s T4-422 1-4 P-62 P-20s T4-423 1-4 P-66 P-20s T4-424 1-4 P-69 P-20s T4-425 1-4 P-70 P-20s T4-426 1-4 P-71 P-20s T4-427 1-4 P-72 P-20s T4-428 1-4 P-74 P-20s T4-429 1-4 P-76 P-20s T4-430 1-4 P-78 P-20s T4-431 1-4 P-84 P-20s T4-432 1-4 II-8 5 P-20s T4-433 1-4 II-8 6 P-20s T4-434 1-4 P-92 P-20s T4-435 1-4 P-3 P-24s T4-436 1-4 II-5 P-24s T4-437 1-4 P-6 P-24s T4-438 1-4 P-7 P-24s T4-439 1-4 II-8 P-24s T4-440 1-4 II-I P-24s T4-441 1-4 II-16 P-24s T4-442 1-4 P-21 P-24s T4-443 1-4 P-26 P-24s T4-444 1-4 P-32 P-24s T4-445 1-4 P-33 P-24s T4-446 1-4 P-37 P-24s T4-447 1-4 P-39 P-24s T4-448 1-4 P-42 P-24s T4-449 1-4 P-44 P-24s T4-450 1-4 II-50 P-24s T4-451 1-4 II-53 P-24s T4-452 1-4 P-60 P-24s T4-453 1-4 P-62 P-24s T4-454 1-4 P-66 P-24s T4-455 1-4 P-69 P-24s T4-456 1-4 P-70 P-24s T4-457 1-4 P-71 P-24s T4-458 1-4 P-72 P-24s T4-459 1-4 P-74 P-24s T4-460 1-4 P-76 P-24s T4-461 1-4 P-78 P-24s T4-462 1-4 P-84 P-24s T4-463 1-4 II-8 5 P-24s T4-464 1-4 II-8 6 P-24s T4-465 1-4 P-92 P-24s T4-466 1-4 Fz P-42s T4-467 1-4 II-5 P-42s T4-468 1-4 P-6 P-42s T4-469 1-4 P-7 P-42s T4-470 1-4 II-8 P-42s T4-471 1-4 II-I P-42s T4-472 1-4 II-16 P-42s T4-473 1-4 P-21 P-42s T4-474 1-4 P-26 P-42s T4-475 1-4 P-32 P-42s T4-476 1-4 P-ZZ P-42s T4-477 1-4 P-37 P-42s T4-478 1-4 P-39 P-42s T4-479 1-4 P-42 P-42s T4-480 1-4 P-44 P-42s T4-481 1-4 II-50 P-42s T4-482 1-4 II-53 P-42s T4-483 1-4 P-60 P-42s T4-484 1-4 P-62 P-42s T4-485 1-4 P-66 P-42s T4-486 1-4 P-69 P-42s T4-487 1-4 P-70 P-42s T4-488 1-4 P-71 P-42s T4-489 1-4 P-72 P-42s T4-490 1-4 P-74 P-42s T4-491 1-4 P-76 P-42s T4-492 1-4 P-78 P-42s T4-493 1-4 P-84 P-42s T4-494 1-4 II-8 5 P-42s T4-495 1-4 II-8 6 P-42s T4-496 1-4 P-92 P-42s

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In tab. T4 in accordance with specific embodiments of the invention, the corresponding component I is present in the form of (S) enantiomer, in which each line corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, these are ternary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions individualized in this table represents embodiments of the present invention (S) enantiomer.

In tab. T4, according to another specific embodiment of the invention, the corresponding component I is present in the form of (R) enantiomer, in which each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, these are ternary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions individualized in this table represents embodiments of the present invention (R) enantiomer.

One other aspect of the present invention is a new two-component compositions containing component II and component III listed in the above table. T4, i.e. the compositions indicated in the following table. BT4 because they are new.

Tab. BT4: two-component compositions containing fungicidal component II and insecticide as component III. Each line of lines from VT4-1 to BT I-124 corresponds to one separate individualized composition. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Table BT4

composition II III BT4-1 Fz P-11s BT4-2 II-5 P-11s BT4-3 P-6 P-11s BT4-4 P-7 P-11s BT4-5 II-8 P-11s BT4-6 II-I P-11s BT4-7 II-16 P-11s BT4-8 P-21 P-11s BT4-9 P-26 P-11s BT4-10 P-32 P-11s BT4-11 P-33 P-11s BT4-12 P-37 P-11s BT4-13 P-39 P-11s BT4-14 P-42 P-11s BT4-15 P-44 P-11s BT4-16 II-50 P-11s BT4-17 II-53 P-11s BT4-18 P-60 P-11s BT4-19 P-62 P-11s BT4-20 P-66 P-11s BT4-21 P-69 P-11s BT4-22 P-70 P-11s BT4-23 P-71 P-11s BT4-24 P-72 P-11s BT4-25 P-74 P-11s BT4-26 P-76 P-11s BT4-27 P-78 P-11s BT4-28 P-84 P-11s BT4-29 P-85 P-11s BT4-30 P-86 P-11s

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VT4-31 P-92 P-11s VT4-32 P-3 P-20s VT4-33 II-5 P-20s VT4-34 P-6 P-20s VT4-35 P-7 P-20s VT4-36 II-8 P-20s VT4-37 II-I P-20s VT4-38 II-16 P-20s VT4-39 P-21 P-20s VT4-40 P-26 P-20s VT4-41 P-32 P-20s VT4-42 P-33 P-20s VT4-43 P-37 P-20s VT4-44 P-39 P-20s VT4-45 P-42 P-20s VT4-46 P-44 P-20s VT4-47 II-50 P-20s VT4-48 II-53 P-20s VT4-49 P-60 P-20s VT4-50 P-62 P-20s VT4-51 P-66 P-20s VT4-52 P-69 P-20s VT4-53 P-70 P-20s VT4-54 P-71 P-20s VT4-55 P-72 P-20s VT4-56 P-74 P-20s VT4-57 P-76 P-20s VT4-58 P-78 P-20s VT4-59 II-8 4 P-20s VT4-60 II-8 5 P-20s VT4-61 II-8 6 P-20s VT4-62 P-92 P-20s VT4-63 P-3 P-24s VT4-64 II-5 P-24s VT4-65 P-6 P-24s VT4-66 P-7 P-24s VT4-67 II-8 P-24s VT4-68 II-I P-24s VT4-69 II-16 P-24s VT4-70 P-21 P-24s VT4-71 P-26 P-24s VT4-72 P-32 P-24s VT4-73 P-33 P-24s VT4-74 P-37 P-24s VT4-75 P-39 P-24s VT4-76 P-42 P-24s VT4-77 P-44 P-24s VT4-78 II-50 P-24s VT4-79 II-53 P-24s VT4-80 P-60 P-24s VT4-81 P-62 P-24s VT4-82 P-66 P-24s VT4-83 P-69 P-24s VT4-84 P-70 P-24s VT4-85 P-71 P-24s VT4-86 P-72 P-24s VT4-87 P-74 P-24s VT4-88 P-76 P-24s VT4-89 P-78 P-24s VT4-90 P-84 P-24s VT4-91 II-8 5 P-24s VT4-92 II-8 6 P-24s VT4-93 P-92 P-24s VT4-94 P-3 P-42s

- 235 030875

BT4-95 P-5 P-42s BT4-96 P-6 P-42s BT4-97 P-7 P-42s BT4-98 P-8 P-42s BT4-99 II-I P-42s BT4-100 II-16 P-42s BT4-101 P-21 P-42s BT4-102 P-26 P-42s BT4-103 P-32 P-42s BT4-104 P-33 P-42s BT4-105 P-37 P-42s BT4-106 P-39 P-42s BT4-107 P-42 P-42s BT4-108 P-44 P-42s BT4-109 P-50 P-42s BT4-110 P-53 P-42s BT4-111 P-60 P-42s BT4-112 P-62 P-42s BT4-113 P-66 P-42s BT4-114 P-69 P-42s BT4-115 P-70 P-42s BT4-116 P-71 P-42s BT4-117 P-72 P-42s BT4-118 P-74 P-42s BT4-119 P-76 P-42s BT4-120 P-78 P-42s BT4-121 P-84 P-42s BT4-122 P-85 P-42s BT4-123 P-86 P-42s BT4-124 P-92 P-42s

Particularly preferred compositions are three-component compositions in which component I is as defined above, i.e. Compound I, in particular a compound selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described in detail above, and component II is selected from the following insecticides II-11 with clothianidin P- 24c imidacloprid P-42c thiamethoxam, and component III means fipronil (compound II-20c).

Particularly preferred compositions of these compositions are given in table. T5, where each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized three component composition. According to one particular aspect, these are triple compositions, each of which contains only these three components as an active compound.

Tab. T5: three-part compositions containing component I, an insecticide compound as component II and fipronil as component III.

Table t5

composition I II III T5-1 1-1 P-11s P-20s T5-2 1-1 P-24s P-20s T5-3 1-1 P-42s P-20s T5-4 1-3 P-11s P-20s T5-5 1-3 P-24s P-20s T5-6 1-3 P-42s P-20s T5-7 1-4 P-11s P-20s T5-8 1-4 P-24s P-20s T5-9 1-4 P-42s P-20s T5-10 1-5 P-11s P-20s T5-11 1-5 P-24s P-20s T5-12 1-5 P-42s P-20s

In tab. T5, in accordance with specific embodiments of the invention, the corresponding component I is present as (S) enantiomer, in which each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, these are ternary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions individualized in this table represents embodiments of the present invention (S) enantiomer.

In tab. T5, according to another specific embodiment of the invention, the corresponding component I is present in the form of (R) enantiomer, in which each line corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, these are ternary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions individualized in this table represents embodiments of the present invention (R) enantiomer.

- 236 030875

In accordance with another aspect, the present invention relates to four-part compositions, i.e. compositions containing component I, i.e. Compound I, in particular a compound selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described in detail above, component II selected from groups A) to O), component III is selected from groups A) to O) and component IV is also selected from groups A) to O), in which components II, III and IV are different active substances. According to his particular embodiment, it is precisely the four active compounds that are defined as present in these compositions (in this context, four-part compositions are also called). Of course, the composition may contain any type of additive or the like, as described in detail below, in order to provide a composition suitable for use in agriculture.

In the four-component compositions according to the invention, the weight ratio of component I to the first other active compound (component II) depends on the properties of the corresponding active compounds and in particular can be 1000: 1 to 1: 1000, in particular 500: 1 to 1: 500. Preferably, it is in the range from 1: 100 to 100: 1, preferably in the range from 1:50 to 50: 1 and in particular in the range from 1:20 to 20: 1. Preferably, the weight ratio may be in the range from 1:10 to 10: 1, preferably from 1: 3 to 3: 1, in particular from 1: 2 to 2: 1. The weight ratio of compound I to the second other active compound (component III) in particular can be 1000: 1 to 1: 1000, in particular 500: 1 to 1: 500. Preferably it is in the range from 1: 100 to 100: 1, preferably in the range from 1:50 to 50: 1 and in particular in the range from 1:20 to 20: 1. Preferably, the weight ratio may be in the range from 1:10 to 10: 1, preferably from 1: 3 to 3: 1, in particular from 1: 2 to 2: 1. The weight ratio of compound I to the third additional active compound (component IV) is preferably in the range from 1: 100 to 100: 1, preferably in the range from 1:50 to 50: 1 and in particular in the range from 1:20 to 20: 1 . Preferably, the weight ratio may be in the range from 1:10 to 10: 1, preferably from 1: 3 to 3: 1, in particular from 1: 2 to 2: 1. The weight ratio of the first other active compound (component II) to the second other active compound (component III) in particular can be from 1000: 1 to 1: 1000, in particular from 500: 1 to 1: 500. Preferably it is in the range from 1: 100 to 100: 1, preferably in the range from 1:50 to 50: 1 and in particular in the range from 2:10 to 20: 1. Preferably, the weight ratio may be in the range from 1:10 to 10: 1, preferably from 1: 3 to 3: 1, in particular from 1: 2 to 2: 1. The weight ratio of the first other active compound (component II) to the third additional active compound (component IV) is preferably in the range from 1: 100 to 100: 1, preferably in the range from 1:50 to 50: 1 and in particular in the range from 1 : 20 to 20: 1. Preferably, the weight ratio may be in the range from 1:10 to 10: 1, preferably from 1: 3 to 3: 1, in particular from 1: 2 to 2: 1. The weight ratio of the second additional active compound (component III) to the third additional active compound (component IV) in particular can be 1000: 1 to 1: 1000, in particular from 500: 1 to 1: 500. Preferably it is in the range from 1: 100 to 100: 1, preferably in the range from 1:50 to 50: 1, and in particular in the range from 1:20 to 20: 1. Preferably, the weight ratio may be in the range from 1:10 to 10: 1, preferably from 1: 3 to 3: 1, in particular from 1: 2 to 2: 1.

In accordance with one embodiment, the present invention relates to four-part compositions comprising component I, i.e. Compound I, in particular a compound selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described above, component II selected from groups A) to I), component III is selected from groups A) to I) and component IV is selected from groups A) to I), with components II, III and IV being different active compounds.

One particular embodiment relates to four-part compositions, wherein component I is as defined above and component II is selected from group A) of respiration inhibitors of complex III in Q _o the region, component III is selected from group B) inhibitors of sterol biosynthesis (fungicides IHD) and component IV is chosen from the inhibitors of respiration of complex II. In accordance with one particular embodiment, component II is selected from the group of strobilurins. In particular, component II is selected from the group consisting of azoxystrobin, dimoxystrobin, fluoxastrobin, kresoxim-methyl, orysastrobin, picoxystrobin, pyraclostrobin and trifloxystrobin. In accordance with another specific embodiment of its implementation, component III is selected from the group of C14 demethylase inhibitors (IDM fungicides), in particular, pep from cyproconazole, difenoconazole, epoxiconazole, fluquinconazole, flusilazole, flutriafol, metconazole, myclobutanil, penconazole, distil, peaconazole, floucylazole, flutriafol, metconazole, myclobutanil, penconazole, peptinazole, peptoconazole triadimenol, tebuconazole, tetraconazole, triticonazole and prochlororas. In accordance with another specific variant of its implementation, Component IV is selected from the group of carboxamides, in particular, in accordance with the principles of the National Security Service of the National Security Service of the United States of America and the United Nations Inspectorate General Office of the OECD, Fluopiram, Flutolanil, Fluuxapyroxad, Furametpyra, Isopiramidum, Fuxpurine, Fluopiramidum, Fuxaproxidum sedaksana, tekloftalam, tifluzamid, N- (4'-trifluoromethylthiobiphenyl-2-yl) -3-difluoromethyl-1 -methyl-1H-pyrazole- 237 030875

4-carboxamide, N- (2- (1,3,3-trimethylbutyl) phenyl) -1,3-dimethyl-5-fluoro-1Y-pyrazole-4-carboxamide, 3 (difluoromethyl) -1-methyl-Y- (1,1,3-Trimethylindan-4-yl) pyrazole-4-carboxamide, 3- (trifluoromethyl) -1 methyl-L- (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide, 1 , 3-dimethyl-L- (1,1,3-trimethylindan-4yl) pyrazole-4-carboxamide, 3- (trifluoromethyl) -1,5-dimethyl-Y- (1,1,3-trimethyl indan-4-yl ) pyrazole-4carboxamide, 3- (difluoromethyl) -1,5-dimethyl-N- (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide and

1.3.5-trimethyl-L- (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide peptides, in particular selected from benzovindiflupir, bixafen, boscalid, fluopyram, fluxapyroxad, isopyrazam, penflufen, pentiopyram and sedac, and max. In accordance with another specific embodiment, these are four-part compositions, which, as active compounds, contain in each case only the indicated four active components I, II, III and IV.

One other particular embodiment relates to four-part compositions, wherein component I is as defined above and component II is selected from group A) of the respiratory inhibitors of complex III in Q _o plot, component III is selected from group B) inhibitors of sterol biosynthesis (fungicides IHD) and component IV is selected from inhibitors with multilateral action. In accordance with one particular embodiment, component II is selected from the group of strobilurins. In particular, component II is selected from the group consisting of azoxystrobin, dimoxystrobin, fluoxastrobin, kresoxim-methyl, orysastrobin, picoxystrobin, pyraclostrobin and trifloxystrobin. According to another particular embodiment, the component III is selected from C14 inhibitors group demethylase (fungicides IDM), particularly selected from cyproconazole, difenoconazole, epoxiconazole, fluquinconazole, fluzilazol, flutriafol, metconazole, myclobutanil, penconazole, propiconazole, prothioconazole, triadimefon, triadimenol, tebuconazole, tetraconazole, triticonazole and prochloraz. In accordance with another specific variant of its implementation, component IV is selected from copper acetate, copper hydroxide, copper oxychloride, copper sulfate, sulfur, (three) basic copper sulfate, mancozeba, maneb, metiram, propineb, thiram, captafol, folpet, chlorothalonil, dichlofluanide, dithianon and 2,6-dimethyl-1H, 5H- [1,4] dithiino [2,3-c: 5,6-с '] dipyrrole1,3,5,7 (2I, 6I) -tetraone, features of chlorothalonil. According to another specific embodiment, these are four-part compositions, which, as active compounds, contain in each case only the indicated four active components I, II, III and IV.

One other particular embodiment relates to four-part compositions, wherein component I is as defined above and component II is selected from group A) of the respiratory inhibitors of complex III in Q _o site, component III is selected from group B) inhibitors of respiration of complex II and component IV is selected from inhibitors with multilateral action. In accordance with one particular embodiment, component II is selected from the group of strobilurins. In particular, component II is selected from the group consisting of azoxystrobin, dimoxystrobin, fluoxastrobin, kresoxim-methyl, orysastrobin, picoxystrobin, pyraclostrobin and trifloxystrobin. In accordance with another specific variant of its implementation, Component III is selected from the group of carboxamides, in particular, in accordance with the principles of the National Security Service of the United States of America (DPS), Computing Systems, Fuksparam, Fluopiram, Furametpyrah, Phytomerase, Acid, Acupuncture, Acupuncture, Acupuncture sedaksan, tekloftalam, tifluzamida, N (4'-trifluoromethylthiobiphenyl-2-yl) -3-difluoromethyl-1-methyl-Sh-pyrazole-4-carboxamide, N- (2- (1,3,3trimethylbutyl) phenyl) -1 , 3-dimethyl-5-fluoro-III-pyrazole-4-carboxamide, 3 - (difluoromethyl) -1 -met L-N (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide, 3- (trifluoromethyl) -1-methyl-N- (1,1,3-trimethylindan 4-yl) pyrazole-4-carboxamide , 1,3-dimethyl-L- (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide, 3 (trifluoromethyl) -1,5-dimethyl-N- (1,1,3-trimethyl indane- 4-yl) pyrazole-4-carboxamide, 3- (difluoromethyl) -

1.5-dimethyl-L- (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide and 1,3,5-trimethyl-L- (1,1,3-trimethylindan-4-yl) pyrazole- 4-carboxamide, especially selected from benzovindiflupir, bixafen, boscalid, fluopiram, fluxapyroxad, isopyrazam, penflufen, pentiopyrad and sedaksan. In accordance with another specific embodiment, component IV is chlorothalonil. In accordance with another specific embodiment, these are four-part compositions, which, as active compounds, contain in each case only the indicated four active components I, II, III and IV.

One other particular embodiment relates to four-part compositions, wherein component I is as defined above, component II is selected from group A) of the respiratory inhibitors of complex III in Q _o the region, component III is selected from group B) inhibitors of respiration of complex II, and component IV is selected from inhibitors of sterol biosynthesis (fungicides of IHD), in particular delta-14 reductase inhibitors. In accordance with one particular embodiment, component II is selected from the group of strobilurins. In particular, component II is selected from the group consisting of azoxystrobin, dimoxystrobin, fluoxastrobin, kresoxim-methyl, orysastrobin, picoxystrobin, pyraclostrobin and trifloxystrobin. According to another particular embodiment, the component III is selected from carboxamides, especially selected from benodanila, benzovindiflupira, biksafena, boscalid, carboxin, fenfurama, fluopirama, flutolanil, fluksapiroksada, furametpyr, izopirazama, mepronil, oxycarboxin, penflufena,

- 238 030875 penthiopyrad, sedaksan, tekloftalam, tifluzamida, N- (4'-trifluoromethylthiobiphenyl-2-yl) -3 difluoromethyl-1-methyl-1H-pyrazole-4-carboxamide, L- (2- (1,3,3- trimethylbutyl) phenyl) -1,3-dimethyl-5fluoro-1H-pyrazole-4-carboxamide, 3- (difluoromethyl) -1-methyl-Nf 1,1,3-trimethylindan-4-yl) pyrazole-4 carboxamide, 3- (trifluoromethyl) -1-methyl-N- (1,1,3-trimethylindan-4-yl) and irazol-4-carboxamide, 1,3-dimethyl-No (1,1,3-trimethylindan-4-yl) pyrazole-4 -carboxamide, 3- (trifluoromethyl) -1,5-dimethyl-№ (1,1,3trimethylindan-4-yl) pyrazole-4-carboxamide, 3 - (difluoromethyl) -1,5-dimethyl-№ (1,1 , 3-trimethylindan-4yl) pyrazole-4-carbox Ida and 1,3,5-trimethyl-N- (1,1,3-trimethylindan-4-yl) and irazol-4-carboxamide, in particular selected from benzovindiflufir, bixafen, boscalid, fluopyram, fluxapyroxad, isopyrazam, penflufen, pentiopyram and sedaksana. In accordance with another specific embodiment, component IV is fenpropimorph. In accordance with another specific embodiment, these are four-part compositions, which, as active compounds, contain in each case only the indicated four active components I, II, III and IV.

One other particular embodiment relates to four-part compositions, wherein component I is as defined above, component II is selected from group A) of the respiratory inhibitors of complex III in Q _o the region, component III is selected from group B) inhibitors of respiration of complex II, and component IV is selected from inhibitors of cell division and cytoskeleton. In accordance with one particular embodiment, component II is selected from the group of strobilurins. In particular, component II is selected from the group consisting of azoxystrobin, dimoxystrobin, fluoxastrobin, kresoxim-methyl, orysastrobin, picoxystrobin, pyraclostrobin and trifloxystrobin. In accordance with another specific variant of its implementation, Component III is selected from the group of carboxamides, in particular, in accordance with the principles of the National Security Service of the United States of America (DPS), Computing Systems, Fuksparam, Fluopiram, Furametpyrah, Phytomerase, Acid, Acupuncture, Acupuncture, Acupuncture sedaksana, tekloftalam, tifluzamida, N (4'-trifluoromethylthiobiphenyl-2-yl) -3-difluoromethyl-1-methyl-1H-pyrazole-4-carboxamide, N- (2- (1,3,3trimethylbutyl) phenyl) -1 , 3-dimethyl-5-fluoro-1H-pyrazole-4-carboxamide, 3 - (difluoromethyl) -1 -me yl-N (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide, 3- (trifluoromethyl) -1-methyl-no. (1,1,3-trimethylindan 4-yl) pyrazole-4-carboxamide, 1,3-dimethyl-no. (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide, 3 (trifluoromethyl) -1,5-dimethyl-no. (1,1,3-trimethylindan-4-yl ) pyrazole-4-carboxamide, 3 - (difluoromethyl) -

I, 5-dimethyl-No (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide and 1,3,5-Trimethyl-No (1,1,3-trimethyl indan-4-yl) pyrazole 4-carboxamide, especially selected from benzovindiflupir, bixafen, boscalid, fluopiram, fluxapyroxad, isopyrazam, penflufen, pentiopyrad and sedaksan. In accordance with another specific embodiment, component IV is selected from cell division inhibitors, such as tubulin inhibitors, such as metrafenone. In accordance with another specific embodiment, these are four-part compositions which, as active compounds, contain in each case only the indicated four active components I,

II, III and IV.

Yet another specific embodiment relates to four-part compositions, wherein component I is as defined above, component II is selected from inhibitors of sterol biosynthesis (IBS fungicides), in particular from C14 demethylase inhibitors (IDM fungicides), component III is chosen from inhibitors signal transduction and component IV are selected from the group of carboxamides, in particular selected from benodanil, benzovindiflupir, bixafen, boscalid, carboxin, fenfuram, fluopyram, flutolanil, fluxapiroxad, furam Thipyra, isopirazam, mepronil, oxycarboxin, penflufen, pentiopyrad, sedaksan, teclophthalam, thifluzamide, N (4'-trifluoromethylthiobiphenyl-2-yl) -3-difluoromethyl-1-methyl-1H-pyrazol-4-carboxes - (1,3,3trimethylbutyl) phenyl) -1,3-dimethyl-5-fluoro-1H-pyrazole-4-carboxamide, 3- (difluoromethyl) -1-methyl-N (1,1,3-trimethylindan-4 -yl) pyrazole-4-carboxamide, 3- (trifluoromethyl) -1-methyl-no. (1,1,3-trimethylindan4-yl) pyrazole-4-carboxamide, 1,3-dimethyl-no. (1,1,3 -trimethylindan-4-yl) pyrazole-4-carboxamide, 3 (trifluoromethyl) -1,5-dimethyl-No (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide, 3- (difluorum Teal) -

1,5-dimethyl No. (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide and 1,3,5-trimethyl No. (1,1,3-trimethylindan-4-yl) pyrazole 4-carboxamide, especially selected from benzovindiflupir, bixafen, boscalid, fluopiram, fluxapyroxad, isopyrazam, penflufen, pentiopyrad and sedaksan. In a specific embodiment, component II is triticonazole, component III is fludioxonil, and component IV is fluxapiroxad.

In accordance with another embodiment of four component compositions, component I, as defined above, and components II, III and IV are selected from group M) of growth regulators, especially selected from chlormequat (chloromequat chloride), mepiquat (mepiquat chloride), paclobutrazole, prohexadione ( prohexadione-calcium), trineksapak-ethyl and uniconazole, while components II, III and IV are different active substances.

Particularly preferred compositions are four-component compositions, wherein component I is as defined above, i.e. Compound I, in particular a compound selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described in detail above, and component II and III are selected from the following fungicides and growth regulators:

- 239 030875

N-azoxystrobin

P-6 Bixafen

P-8 carbendazim

II-11 chlorothalonil

II-16 cyprodinil

P-21 difenokonazol

P-26 epoxyconazole

P-32 fenpropimorph

P-34 Fludioxonil

P-37 fluoxastrobin

P-39 fluzilazole

P-42 fluxapiroxad

P-50 Isopyrazam

P-62 metrafenone

P-66 Pyraclostrobin

P-76 propiconazole

P-78 Prothioconazole

P-84 spiroxamine

P-86 tebuconazole

P-93 triticonazole

P-92 Trifloxystrobin

II-1a mepiquat chloride

P-2a hlormekv chloride

T and W and trineksapak-ethyl

P-4a prohexadione-calcium

P-5a is an ethos and component IV is

P-42 fluxapiroxad or

P-66 Pyraclostrobin, with components II, III and IV being different active compounds.

These compositions are given in table. Q1 and Q1a, where each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized four-part composition. According to one particular aspect, these are four-part compositions, each of which contains only these four components as an active compound. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. Q1: four-part compositions containing component I, a fungicide.

Table Q1

composition I II III IV Q1-1 1-1 Fz P-6 P-42 Q1-2 1-1 Fz P-8 P-42 Q1-3 1-1 Fz II P-42 Q1-4 1-1 Fz II-16 P-42 Q1-5 1-1 Fz P-21 P-42 Q1-6 1-1 Fz P-26 P-42 Q1-7 1-1 Fz P-32 P-42 Q1-8 1-1 Fz P-37 P-42 Q1-9 1-1 Fz P-39 P-42 Q1-10 1-1 Fz P-50 P-42 Q1-11 1-1 Fz P-62 P-42 Q1-12 1-1 Fz P-76 P-42 Q1-13 1-1 Fz P-78 P-42

- 240 030875

Qi Qi Qi Qi Qi

Qi Qi

Qi

Qi

Qi Qi

Qi

Ql

Ql Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi

Qi Qi χ χ χ χ χ χ χ χ χ χ χ χ χχ

II

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

11-32

11-37

11-39

11-50

11-62

11-76

11-78

11-84

11-86

11-92

Ii-la

II-2a

II-3a

II-4a

II-5a

II-11

11-16

11-21

11-26

11-32

11-37

11-39

11-50

11-62

11-76

11-78

11-84

11-86

11-92

Ii-la

II-2a

II-3a

II-4a

II-5a

11-16

11-21

11-26

11-32

11-37

11-39

11-50

11-62

11-76

11-78

11-84

11-86

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

11-42

- 241 030875

Ql-73 1-1 II-11 11-92 11-42 Ql-74 1-1 II-11 Ii-la 11-42 Ql-75 1-1 II-11 II-2a 11-42 Ql-76 1-1 II-11 II-3a 11-42 Ql-77 1-1 II-11 II-4a 11-42 Ql-78 1-1 II-11 II-5 a 11-42 Ql-79 1-1 11-16 11-21 11-42 Ql-80 1-1 11-16 11-26 11-42 Ql-81 1-1 11-16 11-32 11-42 Ql-82 1-1 11-16 11-37 11-42 Ql-83 1-1 11-16 11-39 11-42 Ql-84 1-1 11-16 11-50 11-42 Ql-85 1-1 11-16 11-62 11-42 Ql-86 1-1 11-16 11-76 11-42 Ql-87 1-1 11-16 11-78 11-42 Ql-88 1-1 11-16 11-84 11-42 Ql-89 1-1 11-16 11-86 11-42 Ql-90 1-1 11-16 11-92 11-42 Ql-91 1-1 11-16 Ii-la 11-42 Ql-92 1-1 11-16 II-2a 11-42 Ql-93 1-1 11-16 II-3a 11-42 Ql-94 1-1 11-16 II-4a 11-42 Ql-95 1-1 11-16 II-5 a 11-42 Ql-96 1-1 11-21 11-26 11-42 Ql-97 1-1 11-21 11-32 11-42 Ql-98 1-1 11-21 11-37 11-42 Ql-99 1-1 11-21 11-39 11-42 Ql-100 1-1 11-21 11-50 11-42 Ql-101 1-1 11-21 11-62 11-42 Ql-102 1-1 11-21 11-76 11-42 Ql-103 1-1 11-21 11-78 11-42 Ql-104 1-1 11-21 11-84 11-42 Ql-105 1-1 11-21 11-86 11-42 Ql-106 1-1 11-21 11-92 11-42 Ql-107 1-1 11-21 Ii-la 11-42 Ql-108 1-1 11-21 II-2a 11-42 Ql-109 1-1 11-21 II-3a 11-42 Ql-110 1-1 11-21 II-4a 11-42 Ql-111 1-1 11-21 II-5 a 11-42 Ql-112 1-1 11-26 11-32 11-42 Ql-113 1-1 11-26 11-37 11-42 Ql-114 1-1 11-26 11-39 11-42 Ql-115 1-1 11-26 11-50 11-42 Ql-116 1-1 11-26 11-62 11-42 Ql-117 1-1 11-26 11-76 11-42 Ql-118 1-1 11-26 11-78 11-42

- 242 030875

Ql-119 1-1 11-26 11-84 11-42 Ql-120 1-1 11-26 11-86 11-42 Ql-121 1-1 11-26 11-92 11-42 Ql-122 1-1 11-26 Ii-la 11-42 Ql-123 1-1 11-26 II-2a 11-42 Ql-124 1-1 11-26 II-3a 11-42 Ql-125 1-1 11-26 II-4a 11-42 Ql-126 1-1 11-26 II-5a 11-42 Ql-127 1-1 11-32 11-37 11-42 Ql-128 1-1 11-32 11-39 11-42 Ql-129 1-1 11-32 11-50 11-42 Ql-130 1-1 11-32 11-62 11-42 Ql-131 1-1 11-32 11-76 11-42 Ql-132 1-1 11-32 11-78 11-42 Ql-133 1-1 11-32 11-84 11-42 Ql-134 1-1 11-32 11-86 11-42 Ql-135 1-1 11-32 11-92 11-42 Ql-136 1-1 11-32 Ii-la 11-42 Ql-137 1-1 11-32 II-2a 11-42 Ql-138 1-1 11-32 II-3a 11-42 Ql-139 1-1 11-32 II-4a 11-42 Ql-140 1-1 11-32 II-5a 11-42 Ql-141 1-1 11-37 11-39 11-42 Ql-142 1-1 11-37 11-50 11-42 Ql-143 1-1 11-37 11-62 11-42 Ql-144 1-1 11-37 11-76 11-42 Ql-145 1-1 11-37 11-78 11-42 Ql-146 1-1 11-37 11-84 11-42 Ql-147 1-1 11-37 11-86 11-42 Ql-148 1-1 11-37 11-92 11-42 Ql-149 1-1 11-37 Ii-la 11-42 Ql-150 1-1 11-37 II-2a 11-42 Ql-151 1-1 11-37 II-3a 11-42 Ql-152 1-1 11-37 II-4a 11-42 Ql-153 1-1 11-37 II-5a 11-42 Ql-154 1-1 11-39 11-50 11-42 Ql-155 1-1 11-39 11-62 11-42 Ql-156 1-1 11-39 11-76 11-42 Ql-157 1-1 11-39 11-78 11-42 Ql-158 1-1 11-39 11-84 11-42 Ql-159 1-1 11-39 11-86 11-42 Ql-160 1-1 11-39 11-92 11-42 Ql-161 1-1 11-39 Ii-la 11-42 Ql-162 1-1 11-39 II-2a 11-42 Ql-163 1-1 11-39 II-3a 11-42 Ql-164 1-1 11-39 II-4a 11-42

- 243 030875

Ql-165 1-1 11-39 II-5 a 11-42 Ql-166 1-1 11-50 11-62 11-42 Ql-167 1-1 11-50 11-76 11-42 Ql-168 1-1 11-50 11-78 11-42 Ql-169 1-1 11-50 11-84 11-42 Ql-170 1-1 11-50 11-86 11-42 Ql-171 1-1 11-50 11-92 11-42 Ql-172 1-1 11-50 Ii-la 11-42 Ql-173 1-1 11-50 II-2a 11-42 Ql-174 1-1 11-50 II-3a 11-42 Ql-175 1-1 11-50 II-4a 11-42 Ql-176 1-1 11-50 II-5 a 11-42 Ql-177 1-1 11-62 11-76 11-42 Ql-178 1-1 11-62 11-78 11-42 Ql-179 1-1 11-62 11-84 11-42 Ql-180 1-1 11-62 11-86 11-42 Ql-181 1-1 11-62 11-92 11-42 Ql-182 1-1 11-62 Ii-la 11-42 Ql-183 1-1 11-62 II-2a 11-42 Ql-184 1-1 11-62 II-3a 11-42 Ql-185 1-1 11-62 II-4a 11-42 Ql-186 1-1 11-62 II-5 a 11-42 Ql-187 1-1 11-76 11-78 11-42 Ql-188 1-1 11-76 11-84 11-42 Ql-189 1-1 11-76 11-86 11-42 Ql-190 1-1 11-76 11-92 11-42 Ql-191 1-1 11-76 Ii-la 11-42 Ql-192 1-1 11-76 II-2a 11-42 Ql-193 1-1 11-76 II-3a 11-42 Ql-194 1-1 11-76 II-4a 11-42 Ql-195 1-1 11-76 II-5 a 11-42 Ql-196 1-1 11-78 11-84 11-42 Ql-197 1-1 11-78 11-86 11-42 Ql-198 1-1 11-78 11-92 11-42 Ql-199 1-1 11-78 Ii-la 11-42 Ql-200 1-1 11-78 II-2a 11-42 Ql-201 1-1 11-78 II-3a 11-42 Ql-202 1-1 11-78 II-4a 11-42 Ql-203 1-1 11-78 II-5 a 11-42 Ql-204 1-1 11-84 11-86 11-42 Ql-205 1-1 11-84 11-92 11-42 Ql-206 1-1 11-84 Ii-la 11-42 Ql-207 1-1 11-84 II-2a 11-42 Ql-208 1-1 11-84 II-3a 11-42 Ql-209 1-1 11-84 II-4a 11-42 Ql-210 1-1 11-84 II-5 a 11-42

- 244 030875

Ql-211 1-1 11-86 11-92 11-42 Ql-212 1-1 11-86 Ii-la 11-42 Ql-213 1-1 11-86 II-2a 11-42 Ql-214 1-1 11-86 II-3a 11-42 Ql-215 1-1 11-86 II-4a 11-42 Ql-216 1-1 11-86 II-5a 11-42 Ql-217 1-1 11-92 Ii-la 11-42 Ql-218 1-1 11-92 II-2a 11-42 Ql-219 1-1 11-92 II-3a 11-42 Ql-220 1-1 11-92 II-4a 11-42 Ql-221 1-1 11-92 II-5a 11-42 QI-222 1-1 Ii-la II-2a 11-42 Ql-223 1-1 Ii-la II-3a 11-42 QI-224 1-1 Ii-la II-4a 11-42 Ql-225 1-1 Ii-la II-5a 11-42 Ql-226 1-1 II-2a II-3a 11-42 Ql-227 1-1 II-2a II-4a 11-42 Ql-228 1-1 II-2a II-5a 11-42 Ql-229 1-1 II-3a II-4a 11-42 Ql-230 1-1 II-3a II-5a 11-42 Ql-231 1-1 II-4a II-5a 11-42 Ql-232 1-1 II-3 II-6 11-66 Ql-233 1-1 II-3 II-8 11-66 Ql-234 1-1 II-3 II-11 11-66 Ql-235 1-1 II-3 11-16 11-66 Ql-236 1-1 II-3 11-21 11-66 Ql-237 1-1 II-3 11-26 11-66 Ql-238 1-1 II-3 11-32 11-66 Ql-239 1-1 II-3 11-37 11-66 Ql-240 1-1 II-3 11-39 11-66 Ql-241 1-1 II-3 11-42 11-66 QI-242 1-1 II-3 11-50 11-66 Ql-243 1-1 II-3 11-62 11-66 QI-244 1-1 II-3 11-76 11-66 Ql-245 1-1 II-3 11-78 11-66 Ql-246 1-1 II-3 11-84 11-66 Ql-247 1-1 II-3 11-86 11-66 Ql-248 1-1 II-3 11-92 11-66 Ql-249 1-1 II-3 Ii-la 11-66 Ql-250 1-1 II-3 II-2a 11-66 Ql-251 1-1 II-3 II-3a 11-66 Ql-252 1-1 II-3 II-4a 11-66 Ql-253 1-1 II-3 II-5a 11-66 Ql-254 1-1 II-6 II-8 11-66 Ql-255 1-1 II-6 II-11 11-66 Ql-256 1-1 II-6 11-16 11-66

- 245 030875

Ql-257 1-1 II-6 11-21 11-66 Ql-258 1-1 II-6 11-26 11-66 Ql-259 1-1 II-6 11-32 11-66 Ql-260 1-1 II-6 11-37 11-66 Ql-261 1-1 II-6 11-39 11-66 Ql-262 1-1 II-6 11-42 11-66 Ql-263 1-1 II-6 11-50 11-66 Ql-264 1-1 II-6 11-62 11-66 Ql-265 1-1 II-6 11-76 11-66 Ql-266 1-1 II-6 11-78 11-66 Ql-267 1-1 II-6 11-84 11-66 Ql-268 1-1 II-6 11-86 11-66 Ql-269 1-1 II-6 11-92 11-66 Ql-270 1-1 II-6 Ii-la 11-66 Ql-271 1-1 II-6 II-2a 11-66 Ql-272 1-1 II-6 II-3a 11-66 Ql-273 1-1 II-6 II-4a 11-66 Ql-274 1-1 II-6 II-5 a 11-66 Ql-275 1-1 II-8 II-11 11-66 Ql-276 1-1 II-8 11-16 11-66 Ql-277 1-1 II-8 11-21 11-66 Ql-278 1-1 II-8 11-26 11-66 Ql-279 1-1 II-8 11-32 11-66 Ql-280 1-1 II-8 11-37 11-66 Ql-281 1-1 II-8 11-39 11-66 Ql-282 1-1 II-8 11-42 11-66 Ql-283 1-1 II-8 11-50 11-66 Ql-284 1-1 II-8 11-62 11-66 Ql-285 1-1 II-8 11-76 11-66 Ql-286 1-1 II-8 11-78 11-66 Ql-287 1-1 II-8 11-84 11-66 Ql-288 1-1 II-8 11-86 11-66 Ql-289 1-1 II-8 11-92 11-66 Ql-290 1-1 II-8 Ii-la 11-66 Ql-291 1-1 II-8 II-2a 11-66 Ql-292 1-1 II-8 II-3a 11-66 Ql-293 1-1 II-8 II-4a 11-66 Ql-294 1-1 II-8 II-5 a 11-66 Ql-295 1-1 II-11 11-16 11-66 Ql-296 1-1 II-11 11-21 11-66 Ql-297 1-1 II-11 11-26 11-66 Ql-298 1-1 II-11 11-32 11-66 Ql-299 1-1 II-11 11-37 11-66 Ql-300 1-1 II-11 11-39 11-66 Ql-301 1-1 II-11 11-42 11-66 Ql-302 1-1 II-11 11-50 11-66

- 246 030875

Ql-303 1-1 II-11 11-62 11-66 Ql-304 1-1 II-11 11-76 11-66 Ql-305 1-1 II-11 11-78 11-66 Ql-306 1-1 II-11 11-84 11-66 Ql-307 1-1 II-11 11-86 11-66 Ql-308 1-1 II-11 11-92 11-66 Ql-309 1-1 II-11 Ii-la 11-66 Ql-310 1-1 II-11 II-2a 11-66 Ql-311 1-1 II-11 II-3a 11-66 Ql-312 1-1 II-11 II-4a 11-66 Ql-313 1-1 II-11 II-5a 11-66 Ql-314 1-1 11-16 11-21 11-66 Ql-315 1-1 11-16 11-26 11-66 Ql-316 1-1 11-16 11-32 11-66 Ql-317 1-1 11-16 11-37 11-66 Ql-318 1-1 11-16 11-39 11-66 Ql-319 1-1 11-16 11-42 11-66 Ql-320 1-1 11-16 11-50 11-66 Ql-321 1-1 11-16 11-62 11-66 Ql-322 1-1 11-16 11-76 11-66 Ql-323 1-1 11-16 11-78 11-66 Ql-324 1-1 11-16 11-84 11-66 Ql-325 1-1 11-16 11-86 11-66 Ql-326 1-1 11-16 11-92 11-66 Ql-327 1-1 11-16 Ii-la 11-66 Ql-328 1-1 11-16 II-2a 11-66 Ql-329 1-1 11-16 II-3a 11-66 Ql-330 1-1 11-16 II-4a 11-66 Ql-331 1-1 11-16 II-5a 11-66 Ql-332 1-1 11-21 11-26 11-66 Ql-333 1-1 11-21 11-32 11-66 Ql-334 1-1 11-21 11-37 11-66 Ql-335 1-1 11-21 11-39 11-66 Ql-336 1-1 11-21 11-42 11-66 Ql-337 1-1 11-21 11-50 11-66 Ql-338 1-1 11-21 11-62 11-66 Ql-339 1-1 11-21 11-76 11-66 Ql-340 1-1 11-21 11-78 11-66 Ql-341 1-1 11-21 11-84 11-66 Ql-342 1-1 11-21 11-86 11-66 Ql-343 1-1 11-21 11-92 11-66 Ql-344 1-1 11-21 Ii-la 11-66 Ql-345 1-1 11-21 II-2a 11-66 Ql-346 1-1 11-21 II-3a 11-66 Ql-347 1-1 11-21 II-4a 11-66 Ql-348 1-1 11-21 II-5a 11-66

- 247 030875

Ql-349 1-1 11-26 11-32 11-66 Ql-350 1-1 11-26 11-37 11-66 Ql-351 1-1 11-26 11-39 11-66 Ql-352 1-1 11-26 11-42 11-66 Ql-353 1-1 11-26 11-50 11-66 Ql-354 1-1 11-26 11-62 11-66 Ql-355 1-1 11-26 11-76 11-66 Ql-356 1-1 11-26 11-78 11-66 Ql-357 1-1 11-26 11-84 11-66 Ql-358 1-1 11-26 11-86 11-66 Ql-359 1-1 11-26 11-92 11-66 Ql-360 1-1 11-26 Ii-la 11-66 Ql-361 1-1 11-26 II-2a 11-66 Ql-362 1-1 11-26 II-3a 11-66 Ql-363 1-1 11-26 II-4a 11-66 Ql-364 1-1 11-26 II-5 a 11-66 Ql-365 1-1 11-32 11-37 11-66 Ql-366 1-1 11-32 11-39 11-66 Ql-367 1-1 11-32 11-42 11-66 Ql-368 1-1 11-32 11-50 11-66 Ql-369 1-1 11-32 11-62 11-66 Ql-370 1-1 11-32 11-76 11-66 Ql-371 1-1 11-32 11-78 11-66 Ql-372 1-1 11-32 11-84 11-66 Ql-373 1-1 11-32 11-86 11-66 Ql-374 1-1 11-32 11-92 11-66 Ql-375 1-1 11-32 Ii-la 11-66 Ql-376 1-1 11-32 II-2a 11-66 Ql-377 1-1 11-32 II-3a 11-66 Ql-378 1-1 11-32 II-4a 11-66 Ql-379 1-1 11-32 II-5 a 11-66 Ql-380 1-1 11-37 11-39 11-66 Ql-381 1-1 11-37 11-42 11-66 Ql-382 1-1 11-37 11-50 11-66 Ql-383 1-1 11-37 11-62 11-66 Ql-384 1-1 11-37 11-76 11-66 Ql-385 1-1 11-37 11-78 11-66 Ql-386 1-1 11-37 11-84 11-66 Ql-387 1-1 11-37 11-86 11-66 Ql-388 1-1 11-37 11-92 11-66 Ql-389 1-1 11-37 Ii-la 11-66 Ql-390 1-1 11-37 II-2a 11-66 Ql-391 1-1 11-37 II-3a 11-66 Ql-392 1-1 11-37 II-4a 11-66 Ql-393 1-1 11-37 II-5 a 11-66 Ql-394 1-1 11-39 11-42 11-66

- 248 030875

Ql-395 1-1 11-39 11-50 11-66 Ql-396 1-1 11-39 11-62 11-66 Ql-397 1-1 11-39 11-76 11-66 Ql-398 1-1 11-39 11-78 11-66 Ql-399 1-1 11-39 11-84 11-66 Ql-400 1-1 11-39 11-86 11-66 Ql-401 1-1 11-39 11-92 11-66 Ql-402 1-1 11-39 Ii-la 11-66 Ql-403 1-1 11-39 II-2a 11-66 Ql-404 1-1 11-39 II-3a 11-66 Ql-405 1-1 11-39 II-4a 11-66 Ql-406 1-1 11-39 II-5a 11-66 Ql-407 1-1 11-42 11-50 11-66 Ql-408 1-1 11-42 11-62 11-66 Ql-409 1-1 11-42 11-76 11-66 Ql-410 1-1 11-42 11-78 11-66 Ql-411 1-1 11-42 11-84 11-66 Ql-412 1-1 11-42 11-86 11-66 Ql-413 1-1 11-42 11-92 11-66 Ql-414 1-1 11-42 Ii-la 11-66 Ql-415 1-1 11-42 II-2a 11-66 Ql-416 1-1 11-42 II-3a 11-66 Ql-417 1-1 11-42 II-4a 11-66 Ql-418 1-1 11-42 II-5a 11-66 Ql-419 1-1 11-50 11-62 11-66 Ql-420 1-1 11-50 11-76 11-66 Ql-421 1-1 11-50 11-78 11-66 QI-422 1-1 11-50 11-84 11-66 Ql-423 1-1 11-50 11-86 11-66 QI-424 1-1 11-50 11-92 11-66 Ql-425 1-1 11-50 Ii-la 11-66 Ql-426 1-1 11-50 II-2a 11-66 Ql-427 1-1 11-50 II-3a 11-66 Ql-428 1-1 11-50 II-4a 11-66 Ql-429 1-1 11-50 II-5a 11-66 Ql-430 1-1 11-62 11-76 11-66 Ql-431 1-1 11-62 11-78 11-66 Ql-432 1-1 11-62 11-84 11-66 Ql-433 1-1 11-62 11-86 11-66 Ql-434 1-1 11-62 11-92 11-66 Ql-435 1-1 11-62 Ii-la 11-66 Ql-436 1-1 11-62 II-2a 11-66 Ql-437 1-1 11-62 II-3a 11-66 Ql-438 1-1 11-62 II-4a 11-66 Ql-439 1-1 11-62 II-5a 11-66 Ql-440 1-1 11-76 11-78 11-66

- 249 030875

Ql-441 1-1 11-76 11-84 11-66 QI-442 1-1 11-76 11-86 11-66 Ql-443 1-1 11-76 11-92 11-66 QI-444 1-1 11-76 Ii-la 11-66 Ql-445 1-1 11-76 II-2a 11-66 Ql-446 1-1 11-76 II-3a 11-66 Ql-447 1-1 11-76 II-4a 11-66 Ql-448 1-1 11-76 II-5 a 11-66 Ql-449 1-1 11-78 11-84 11-66 Ql-450 1-1 11-78 11-86 11-66 Ql-451 1-1 11-78 11-92 11-66 Ql-452 1-1 11-78 Ii-la 11-66 Ql-453 1-1 11-78 II-2a 11-66 Ql-454 1-1 11-78 II-3a 11-66 Ql-455 1-1 11-78 II-4a 11-66 Ql-456 1-1 11-78 II-5 a 11-66 Ql-457 1-1 11-84 11-86 11-66 Ql-458 1-1 11-84 11-92 11-66 Ql-459 1-1 11-84 Ii-la 11-66 Ql-460 1-1 11-84 II-2a 11-66 Ql-461 1-1 11-84 II-3a 11-66 Ql-462 1-1 11-84 II-4a 11-66 Ql-463 1-1 11-84 II-5 a 11-66 Ql-464 1-1 11-86 11-92 11-66 Ql-465 1-1 11-86 Ii-la 11-66 Ql-466 1-1 11-86 II-2a 11-66 Ql-467 1-1 11-86 II-3a 11-66 Ql-468 1-1 11-86 II-4a 11-66 Ql-469 1-1 11-86 II-5 a 11-66 Ql-470 1-1 11-92 Ii-la 11-66 Ql-471 1-1 11-92 II-2a 11-66 Ql-472 1-1 11-92 II-3a 11-66 Ql-473 1-1 11-92 II-4a 11-66 Ql-474 1-1 11-92 II-5 a 11-66 Ql-475 1-1 Ii-la II-2a 11-66 Ql-476 1-1 Ii-la II-3a 11-66 Ql-477 1-1 Ii-la II-4a 11-66 Ql-478 1-1 Ii-la II-5 a 11-66 Ql-479 1-1 II-2a II-3a 11-66 Ql-480 1-1 II-2a II-4a 11-66 Ql-481 1-1 II-2a II-5 a 11-66 Ql-482 1-1 II-3a II-4a 11-66 Ql-483 1-1 II-3a II-5 a 11-66 Ql-484 1-1 II-4a II-5 a 11-66 Ql-485 1-3 II-3 II-6 11-42 Ql-486 1-3 II-3 II-8 11-42

- 250 030875

Ql-487 1-3 II-3 II-11 11-42 Ql-488 1-3 II-3 11-16 11-42 Ql-489 1-3 II-3 11-21 11-42 Ql-490 1-3 II-3 11-26 11-42 Ql-491 1-3 II-3 11-32 11-42 Ql-492 1-3 II-3 11-37 11-42 Ql-493 1-3 II-3 11-39 11-42 Ql-494 1-3 II-3 11-50 11-42 Ql-495 1-3 II-3 11-62 11-42 Ql-496 1-3 II-3 11-76 11-42 Ql-497 1-3 II-3 11-78 11-42 Ql-498 1-3 II-3 11-84 11-42 Ql-499 1-3 II-3 11-86 11-42 Ql-500 1-3 II-3 11-92 11-42 Ql-501 1-3 II-3 Ii-la 11-42 Ql-502 1-3 II-3 II-2a 11-42 Ql-503 1-3 II-3 II-3a 11-42 Ql-504 1-3 II-3 II-4a 11-42 Ql-505 1-3 II-3 II-5a 11-42 Ql-506 1-3 II-6 II-8 11-42 Ql-507 1-3 II-6 II-11 11-42 Ql-508 1-3 II-6 11-16 11-42 Ql-509 1-3 II-6 11-21 11-42 Ql-510 1-3 II-6 11-26 11-42 Ql-511 1-3 II-6 11-32 11-42 Ql-512 1-3 II-6 11-37 11-42 Ql-513 1-3 II-6 11-39 11-42 Ql-514 1-3 II-6 11-50 11-42 Ql-515 1-3 II-6 11-62 11-42 Ql-516 1-3 II-6 11-76 11-42 Ql-517 1-3 II-6 11-78 11-42 Ql-518 1-3 II-6 11-84 11-42 Ql-519 1-3 II-6 11-86 11-42 Ql-520 1-3 II-6 11-92 11-42 Ql-521 1-3 II-6 Ii-la 11-42 Ql-522 1-3 II-6 II-2a 11-42 Ql-523 1-3 II-6 II-3a 11-42 Ql-524 1-3 II-6 II-4a 11-42 Ql-525 1-3 II-6 II-5a 11-42 Ql-526 1-3 II-8 II-11 11-42 Ql-527 1-3 II-8 11-16 11-42 Ql-528 1-3 II-8 11-21 11-42 Ql-529 1-3 II-8 11-26 11-42 Ql-530 1-3 II-8 11-32 11-42 Ql-531 1-3 II-8 11-37 11-42 Ql-532 1-3 II-8 11-39 11-42

- 251 030875

Ql-533 1-3 II-8 11-50 11-42 Ql-534 1-3 II-8 11-62 11-42 Ql-535 1-3 II-8 11-76 11-42 Ql-536 1-3 II-8 11-78 11-42 Ql-537 1-3 II-8 11-84 11-42 Ql-538 1-3 II-8 11-86 11-42 Ql-539 1-3 II-8 11-92 11-42 Ql-540 1-3 II-8 Ii-la 11-42 Ql-541 1-3 II-8 II-2a 11-42 Ql-542 1-3 II-8 II-3a 11-42 Ql-543 1-3 II-8 II-4a 11-42 Ql-544 1-3 II-8 II-5 a 11-42 Ql-545 1-3 II-11 11-16 11-42 Ql-546 1-3 II-11 11-21 11-42 Ql-547 1-3 II-11 11-26 11-42 Ql-548 1-3 II-11 11-32 11-42 Ql-549 1-3 II-11 11-37 11-42 Ql-550 1-3 II-11 11-39 11-42 Ql-551 1-3 II-11 11-50 11-42 Ql-552 1-3 II-11 11-62 11-42 Ql-553 1-3 II-11 11-76 11-42 Ql-554 1-3 II-11 11-78 11-42 Ql-555 1-3 II-11 11-84 11-42 Ql-556 1-3 II-11 11-86 11-42 Ql-557 1-3 II-11 11-92 11-42 Ql-558 1-3 II-11 Ii-la 11-42 Ql-559 1-3 II-11 II-2a 11-42 Ql-560 1-3 II-11 II-3a 11-42 Ql-561 1-3 II-11 II-4a 11-42 Ql-562 1-3 II-11 II-5 a 11-42 Ql-563 1-3 11-16 11-21 11-42 Ql-564 1-3 11-16 11-26 11-42 Ql-565 1-3 11-16 11-32 11-42 Ql-566 1-3 11-16 11-37 11-42 Ql-567 1-3 11-16 11-39 11-42 Ql-568 1-3 11-16 11-50 11-42 Ql-569 1-3 11-16 11-62 11-42 Ql-570 1-3 11-16 11-76 11-42 Ql-571 1-3 11-16 11-78 11-42 Ql-572 1-3 11-16 11-84 11-42 Ql-573 1-3 11-16 11-86 11-42 Ql-574 1-3 11-16 11-92 11-42 Ql-575 1-3 11-16 Ii-la 11-42 Ql-576 1-3 11-16 II-2a 11-42 Ql-577 1-3 11-16 II-3a 11-42 Ql-578 1-3 11-16 II-4a 11-42

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Ql-579 1-3 11-16 II-5a 11-42 Ql-580 1-3 11-21 11-26 11-42 Ql-581 1-3 11-21 11-32 11-42 Ql-582 1-3 11-21 11-37 11-42 Ql-583 1-3 11-21 11-39 11-42 Ql-584 1-3 11-21 11-50 11-42 Ql-585 1-3 11-21 11-62 11-42 Ql-586 1-3 11-21 11-76 11-42 Ql-587 1-3 11-21 11-78 11-42 Ql-588 1-3 11-21 11-84 11-42 Ql-589 1-3 11-21 11-86 11-42 Ql-590 1-3 11-21 11-92 11-42 Ql-591 1-3 11-21 Ii-la 11-42 Ql-592 1-3 11-21 II-2a 11-42 Ql-593 1-3 11-21 II-3a 11-42 Ql-594 1-3 11-21 II-4a 11-42 Ql-595 1-3 11-21 II-5a 11-42 Ql-596 1-3 11-26 11-32 11-42 Ql-597 1-3 11-26 11-37 11-42 Ql-598 1-3 11-26 11-39 11-42 Ql-599 1-3 11-26 11-50 11-42 Ql-600 1-3 11-26 11-62 11-42 Ql-601 1-3 11-26 11-76 11-42 Ql-602 1-3 11-26 11-78 11-42 Ql-603 1-3 11-26 11-84 11-42 Ql-604 1-3 11-26 11-86 11-42 Ql-605 1-3 11-26 11-92 11-42 Ql-606 1-3 11-26 Ii-la 11-42 Ql-607 1-3 11-26 II-2a 11-42 Ql-608 1-3 11-26 II-3a 11-42 Ql-609 1-3 11-26 II-4a 11-42 Ql-610 1-3 11-26 II-5a 11-42 Ql-611 1-3 11-32 11-37 11-42 Ql-612 1-3 11-32 11-39 11-42 Ql-613 1-3 11-32 11-50 11-42 Ql-614 1-3 11-32 11-62 11-42 Ql-615 1-3 11-32 11-76 11-42 Ql-616 1-3 11-32 11-78 11-42 Ql-617 1-3 11-32 11-84 11-42 Ql-618 1-3 11-32 11-86 11-42 Ql-619 1-3 11-32 11-92 11-42 Ql-620 1-3 11-32 Ii-la 11-42 Ql-621 1-3 11-32 II-2a 11-42 Ql-622 1-3 11-32 II-3a 11-42 Ql-623 1-3 11-32 II-4a 11-42 Ql-624 1-3 11-32 II-5a 11-42

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Ql-625 1-3 11-37 11-39 11-42 Ql-626 1-3 11-37 11-50 11-42 Ql-627 1-3 11-37 11-62 11-42 Ql-628 1-3 11-37 11-76 11-42 Ql-629 1-3 11-37 11-78 11-42 Ql-630 1-3 11-37 11-84 11-42 Ql-631 1-3 11-37 11-86 11-42 Ql-632 1-3 11-37 11-92 11-42 Ql-633 1-3 11-37 Ii-la 11-42 Ql-634 1-3 11-37 II-2a 11-42 Ql-635 1-3 11-37 II-3a 11-42 Ql-636 1-3 11-37 II-4a 11-42 Ql-637 1-3 11-37 II-5 a 11-42 Ql-638 1-3 11-39 11-50 11-42 Ql-639 1-3 11-39 11-62 11-42 Ql-640 1-3 11-39 11-76 11-42 Ql-641 1-3 11-39 11-78 11-42 Ql-642 1-3 11-39 11-84 11-42 Ql-643 1-3 11-39 11-86 11-42 Ql-644 1-3 11-39 11-92 11-42 Ql-645 1-3 11-39 Ii-la 11-42 Ql-646 1-3 11-39 II-2a 11-42 Ql-647 1-3 11-39 II-3a 11-42 Ql-648 1-3 11-39 II-4a 11-42 Ql-649 1-3 11-39 II-5 a 11-42 Ql-650 1-3 11-50 11-62 11-42 Ql-651 1-3 11-50 11-76 11-42 Ql-652 1-3 11-50 11-78 11-42 Ql-653 1-3 11-50 11-84 11-42 Ql-654 1-3 11-50 11-86 11-42 Ql-655 1-3 11-50 11-92 11-42 Ql-656 1-3 11-50 Ii-la 11-42 Ql-657 1-3 11-50 II-2a 11-42 Ql-658 1-3 11-50 II-3a 11-42 Ql-659 1-3 11-50 II-4a 11-42 Ql-660 1-3 11-50 II-5 a 11-42 Ql-661 1-3 11-62 11-76 11-42 Ql-662 1-3 11-62 11-78 11-42 Ql-663 1-3 11-62 11-84 11-42 Ql-664 1-3 11-62 11-86 11-42 Ql-665 1-3 11-62 11-92 11-42 Ql-666 1-3 11-62 Ii-la 11-42 Ql-667 1-3 11-62 II-2a 11-42 Ql-668 1-3 11-62 II-3a 11-42 Ql-669 1-3 11-62 II-4a 11-42 Ql-670 1-3 11-62 II-5 a 11-42

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Ql-671 1-3 11-76 11-78 11-42 Ql-672 1-3 11-76 11-84 11-42 Ql-673 1-3 11-76 11-86 11-42 Ql-674 1-3 11-76 11-92 11-42 Ql-675 1-3 11-76 Ii-la 11-42 Ql-676 1-3 11-76 II-2a 11-42 Ql-677 1-3 11-76 II-3a 11-42 Ql-678 1-3 11-76 II-4a 11-42 Ql-679 1-3 11-76 II-5a 11-42 Ql-680 1-3 11-78 11-84 11-42 Ql-681 1-3 11-78 11-86 11-42 Ql-682 1-3 11-78 11-92 11-42 Ql-683 1-3 11-78 Ii-la 11-42 Ql-684 1-3 11-78 II-2a 11-42 Ql-685 1-3 11-78 II-3a 11-42 Ql-686 1-3 11-78 II-4a 11-42 Ql-687 1-3 11-78 II-5a 11-42 Ql-688 1-3 11-84 11-86 11-42 Ql-689 1-3 11-84 11-92 11-42 Ql-690 1-3 11-84 Ii-la 11-42 Ql-691 1-3 11-84 II-2a 11-42 Ql-692 1-3 11-84 II-3a 11-42 Ql-693 1-3 11-84 II-4a 11-42 Ql-694 1-3 11-84 II-5a 11-42 Ql-695 1-3 11-86 11-92 11-42 Ql-696 1-3 11-86 Ii-la 11-42 Ql-697 1-3 11-86 II-2a 11-42 Ql-698 1-3 11-86 II-3a 11-42 Ql-699 1-3 11-86 II-4a 11-42 Ql-700 1-3 11-86 II-5a 11-42 Ql-701 1-3 11-92 Ii-la 11-42 Ql-702 1-3 11-92 II-2a 11-42 Ql-703 1-3 11-92 II-3a 11-42 Ql-704 1-3 11-92 II-4a 11-42 Ql-705 1-3 11-92 II-5a 11-42 Ql-706 1-3 Ii-la II-2a 11-42 Ql-707 1-3 Ii-la II-3a 11-42 Ql-708 1-3 Ii-la II-4a 11-42 Ql-709 1-3 Ii-la II-5a 11-42 Ql-710 1-3 II-2a II-3a 11-42 Ql-711 1-3 II-2a II-4a 11-42 Ql-712 1-3 II-2a II-5a 11-42 Ql-713 1-3 II-3a II-4a 11-42 Ql-714 1-3 II-3a II-5a 11-42 Ql-715 1-3 II-4a II-5a 11-42 Ql-716 1-3 II-3 II-6 11-66

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Ql-717 1-3 II-3 II-8 11-66 Ql-718 1-3 II-3 II-11 11-66 Ql-719 1-3 II-3 11-16 11-66 Ql-720 1-3 II-3 11-21 11-66 Ql-721 1-3 II-3 11-26 11-66 Ql-722 1-3 II-3 11-32 11-66 Ql-723 1-3 II-3 11-37 11-66 Ql-724 1-3 II-3 11-39 11-66 Ql-725 1-3 II-3 11-42 11-66 Ql-726 1-3 II-3 11-50 11-66 Ql-727 1-3 II-3 11-62 11-66 Ql-728 1-3 II-3 11-76 11-66 Ql-729 1-3 II-3 11-78 11-66 Ql-730 1-3 II-3 11-84 11-66 Ql-731 1-3 II-3 11-86 11-66 Ql-732 1-3 II-3 11-92 11-66 Ql-733 1-3 II-3 Ii-la 11-66 Ql-734 1-3 II-3 II-2a 11-66 Ql-735 1-3 II-3 II-3a 11-66 Ql-736 1-3 II-3 II-4a 11-66 Ql-737 1-3 II-3 II-5 a 11-66 Ql-738 1-3 II-6 II-8 11-66 Ql-739 1-3 II-6 II-11 11-66 Ql-740 1-3 II-6 11-16 11-66 Ql-741 1-3 II-6 11-21 11-66 Ql-742 1-3 II-6 11-26 11-66 Ql-743 1-3 II-6 11-32 11-66 Ql-744 1-3 II-6 11-37 11-66 Ql-745 1-3 II-6 11-39 11-66 Ql-746 1-3 II-6 11-42 11-66 Ql-747 1-3 II-6 11-50 11-66 Ql-748 1-3 II-6 11-62 11-66 Ql-749 1-3 II-6 11-76 11-66 Ql-750 1-3 II-6 11-78 11-66 Ql-751 1-3 II-6 11-84 11-66 Ql-752 1-3 II-6 11-86 11-66 Ql-753 1-3 II-6 11-92 11-66 Ql-754 1-3 II-6 Ii-la 11-66 Ql-755 1-3 II-6 II-2a 11-66 Ql-756 1-3 II-6 II-3a 11-66 Ql-757 1-3 II-6 II-4a 11-66 Ql-758 1-3 II-6 II-5 a 11-66 Ql-759 1-3 II-8 II-11 11-66 Ql-760 1-3 II-8 11-16 11-66 Ql-761 1-3 II-8 11-21 11-66 Ql-762 1-3 II-8 11-26 11-66

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Ql-763 1-3 II-8 11-32 11-66 Ql-764 1-3 II-8 11-37 11-66 Ql-765 1-3 II-8 11-39 11-66 Ql-766 1-3 II-8 11-42 11-66 Ql-767 1-3 II-8 11-50 11-66 Ql-768 1-3 II-8 11-62 11-66 Ql-769 1-3 II-8 11-76 11-66 Ql-770 1-3 II-8 11-78 11-66 Ql-771 1-3 II-8 11-84 11-66 Ql-772 1-3 II-8 11-86 11-66 Ql-773 1-3 II-8 11-92 11-66 Ql-774 1-3 II-8 Ii-la 11-66 Ql-775 1-3 II-8 II-2a 11-66 Ql-776 1-3 II-8 II-3a 11-66 Ql-777 1-3 II-8 II-4a 11-66 Ql-778 1-3 II-8 II-5a 11-66 Ql-779 1-3 II-11 11-16 11-66 Ql-780 1-3 II-11 11-21 11-66 Ql-781 1-3 II-11 11-26 11-66 Ql-782 1-3 II-11 11-32 11-66 Ql-783 1-3 II-11 11-37 11-66 Ql-784 1-3 II-11 11-39 11-66 Ql-785 1-3 II-11 11-42 11-66 Ql-786 1-3 II-11 11-50 11-66 Ql-787 1-3 II-11 11-62 11-66 Ql-788 1-3 II-11 11-76 11-66 Ql-789 1-3 II-11 11-78 11-66 Ql-790 1-3 II-11 11-84 11-66 Ql-791 1-3 II-11 11-86 11-66 Ql-792 1-3 II-11 11-92 11-66 Ql-793 1-3 II-11 Ii-la 11-66 Ql-794 1-3 II-11 II-2a 11-66 Ql-795 1-3 II-11 II-3a 11-66 Ql-796 1-3 II-11 II-4a 11-66 Ql-797 1-3 II-11 II-5a 11-66 Ql-798 1-3 11-16 11-21 11-66 Ql-799 1-3 11-16 11-26 11-66 Ql-800 1-3 11-16 11-32 11-66 Ql-801 1-3 11-16 11-37 11-66 Ql-802 1-3 11-16 11-39 11-66 Ql-803 1-3 11-16 11-42 11-66 Ql-804 1-3 11-16 11-50 11-66 Ql-805 1-3 11-16 11-62 11-66 Ql-806 1-3 11-16 11-76 11-66 Ql-807 1-3 11-16 11-78 11-66 Ql-808 1-3 11-16 11-84 11-66

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Ql-809 1-3 11-16 11-86 11-66 Ql-810 1-3 11-16 11-92 11-66 Ql-811 1-3 11-16 Ii-la 11-66 Ql-812 1-3 11-16 II-2a 11-66 Ql-813 1-3 11-16 II-3a 11-66 Ql-814 1-3 11-16 II-4a 11-66 Ql-815 1-3 11-16 II-5 a 11-66 Ql-816 1-3 11-21 11-26 11-66 Ql-817 1-3 11-21 11-32 11-66 Ql-818 1-3 11-21 11-37 11-66 Ql-819 1-3 11-21 11-39 11-66 Ql-820 1-3 11-21 11-42 11-66 Ql-821 1-3 11-21 11-50 11-66 Ql-822 1-3 11-21 11-62 11-66 Ql-823 1-3 11-21 11-76 11-66 Ql-824 1-3 11-21 11-78 11-66 Ql-825 1-3 11-21 11-84 11-66 Ql-826 1-3 11-21 11-86 11-66 Ql-827 1-3 11-21 11-92 11-66 Ql-828 1-3 11-21 Ii-la 11-66 Ql-829 1-3 11-21 II-2a 11-66 Ql-830 1-3 11-21 II-3a 11-66 Ql-831 1-3 11-21 II-4a 11-66 Ql-832 1-3 11-21 II-5 a 11-66 Ql-833 1-3 11-26 11-32 11-66 Ql-834 1-3 11-26 11-37 11-66 Ql-835 1-3 11-26 11-39 11-66 Ql-836 1-3 11-26 11-42 11-66 Ql-837 1-3 11-26 11-50 11-66 Ql-838 1-3 11-26 11-62 11-66 Ql-839 1-3 11-26 11-76 11-66 Ql-840 1-3 11-26 11-78 11-66 Ql-841 1-3 11-26 11-84 11-66 Ql-842 1-3 11-26 11-86 11-66 Ql-843 1-3 11-26 11-92 11-66 Ql-844 1-3 11-26 Ii-la 11-66 Ql-845 1-3 11-26 II-2a 11-66 Ql-846 1-3 11-26 II-3a 11-66 Ql-847 1-3 11-26 II-4a 11-66 Ql-848 1-3 11-26 II-5 a 11-66 Ql-849 1-3 11-32 11-37 11-66 Ql-850 1-3 11-32 11-39 11-66 Ql-851 1-3 11-32 11-42 11-66 Ql-852 1-3 11-32 11-50 11-66 Ql-853 1-3 11-32 11-62 11-66 Ql-854 1-3 11-32 11-76 11-66

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Ql-855 1-3 11-32 11-78 11-66 Ql-856 1-3 11-32 11-84 11-66 Ql-857 1-3 11-32 11-86 11-66 Ql-858 1-3 11-32 11-92 11-66 Ql-859 1-3 11-32 Ii-la 11-66 Ql-860 1-3 11-32 II-2a 11-66 Ql-861 1-3 11-32 II-3a 11-66 Ql-862 1-3 11-32 II-4a 11-66 Ql-863 1-3 11-32 II-5a 11-66 Ql-864 1-3 11-37 11-39 11-66 Ql-865 1-3 11-37 11-42 11-66 Ql-866 1-3 11-37 11-50 11-66 Ql-867 1-3 11-37 11-62 11-66 Ql-868 1-3 11-37 11-76 11-66 Ql-869 1-3 11-37 11-78 11-66 Ql-870 1-3 11-37 11-84 11-66 Ql-871 1-3 11-37 11-86 11-66 Ql-872 1-3 11-37 11-92 11-66 Ql-873 1-3 11-37 Ii-la 11-66 Ql-874 1-3 11-37 II-2a 11-66 Ql-875 1-3 11-37 II-3a 11-66 Ql-876 1-3 11-37 II-4a 11-66 Ql-877 1-3 11-37 II-5a 11-66 Ql-878 1-3 11-39 11-42 11-66 Ql-879 1-3 11-39 11-50 11-66 Ql-880 1-3 11-39 11-62 11-66 Ql-881 1-3 11-39 11-76 11-66 Ql-882 1-3 11-39 11-78 11-66 Ql-883 1-3 11-39 11-84 11-66 Ql-884 1-3 11-39 11-86 11-66 Ql-885 1-3 11-39 11-92 11-66 Ql-886 1-3 11-39 Ii-la 11-66 Ql-887 1-3 11-39 II-2a 11-66 Ql-888 1-3 11-39 II-3a 11-66 Ql-889 1-3 11-39 II-4a 11-66 Ql-890 1-3 11-39 II-5a 11-66 Ql-891 1-3 11-42 11-50 11-66 Ql-892 1-3 11-42 11-62 11-66 Ql-893 1-3 11-42 11-76 11-66 Ql-894 1-3 11-42 11-78 11-66 Ql-895 1-3 11-42 11-84 11-66 Ql-896 1-3 11-42 11-86 11-66 Ql-897 1-3 11-42 11-92 11-66 Ql-898 1-3 11-42 Ii-la 11-66 Ql-899 1-3 11-42 II-2a 11-66 Ql-900 1-3 11-42 II-3a 11-66

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Ql-901 1-3 11-42 II-4a 11-66 Ql-902 1-3 11-42 II-5 a 11-66 Ql-903 1-3 11-50 11-62 11-66 Ql-904 1-3 11-50 11-76 11-66 Ql-905 1-3 11-50 11-78 11-66 Ql-906 1-3 11-50 11-84 11-66 Ql-907 1-3 11-50 11-86 11-66 Ql-908 1-3 11-50 11-92 11-66 Ql-909 1-3 11-50 Ii-la 11-66 Ql-910 1-3 11-50 II-2a 11-66 Ql-911 1-3 11-50 II-3a 11-66 Ql-912 1-3 11-50 II-4a 11-66 Ql-913 1-3 11-50 II-5 a 11-66 Ql-914 1-3 11-62 11-76 11-66 Ql-915 1-3 11-62 11-78 11-66 Ql-916 1-3 11-62 11-84 11-66 Ql-917 1-3 11-62 11-86 11-66 Ql-918 1-3 11-62 11-92 11-66 Ql-919 1-3 11-62 Ii-la 11-66 Ql-920 1-3 11-62 II-2a 11-66 Ql-921 1-3 11-62 II-3a 11-66 Ql-922 1-3 11-62 II-4a 11-66 Ql-923 1-3 11-62 II-5 a 11-66 Ql-924 1-3 11-76 11-78 11-66 Ql-925 1-3 11-76 11-84 11-66 Ql-926 1-3 11-76 11-86 11-66 Ql-927 1-3 11-76 11-92 11-66 Ql-928 1-3 11-76 Ii-la 11-66 Ql-929 1-3 11-76 II-2a 11-66 Ql-930 1-3 11-76 II-3a 11-66 Ql-931 1-3 11-76 II-4a 11-66 Ql-932 1-3 11-76 II-5 a 11-66 Ql-933 1-3 11-78 11-84 11-66 Ql-934 1-3 11-78 11-86 11-66 Ql-935 1-3 11-78 11-92 11-66 Ql-936 1-3 11-78 Ii-la 11-66 Ql-937 1-3 11-78 II-2a 11-66 Ql-938 1-3 11-78 II-3a 11-66 Ql-939 1-3 11-78 II-4a 11-66 Ql-940 1-3 11-78 II-5 a 11-66 Ql-941 1-3 11-84 11-86 11-66 Ql-942 1-3 11-84 11-92 11-66 Ql-943 1-3 11-84 Ii-la 11-66 Ql-944 1-3 11-84 II-2a 11-66 Ql-945 1-3 11-84 II-3a 11-66 Ql-946 1-3 11-84 II-4a 11-66

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Ql-947 1-3 11-84 II-5a 11-66 Ql-948 1-3 11-86 11-92 11-66 Ql-949 1-3 11-86 Ii-la 11-66 Ql-950 1-3 11-86 II-2a 11-66 Ql-951 1-3 11-86 II-3a 11-66 Ql-952 1-3 11-86 II-4a 11-66 Ql-953 1-3 11-86 II-5a 11-66 Ql-954 1-3 11-92 Ii-la 11-66 Ql-955 1-3 11-92 II-2a 11-66 Ql-956 1-3 11-92 II-3a 11-66 Ql-957 1-3 11-92 II-4a 11-66 Ql-958 1-3 11-92 II-5a 11-66 Ql-959 1-3 Ii-la II-2a 11-66 Ql-960 1-3 Ii-la II-3a 11-66 Ql-961 1-3 Ii-la II-4a 11-66 Ql-962 1-3 Ii-la II-5a 11-66 Ql-963 1-3 II-2a II-3a 11-66 Ql-964 1-3 II-2a II-4a 11-66 Ql-965 1-3 II-2a II-5a 11-66 Ql-966 1-3 II-3a II-4a 11-66 Ql-967 1-3 II-3a II-5a 11-66 Ql-968 1-3 II-4a II-5a 11-66 Ql-969 1-4 II-3 II-6 11-42 Ql-970 1-4 II-3 II-8 11-42 Ql-971 1-4 II-3 II-11 11-42 Ql-972 1-4 II-3 11-16 11-42 Ql-973 1-4 II-3 11-21 11-42 Ql-974 1-4 II-3 11-26 11-42 Ql-975 1-4 II-3 11-32 11-42 Ql-976 1-4 II-3 11-37 11-42 Ql-977 1-4 II-3 11-39 11-42 Ql-978 1-4 II-3 11-50 11-42 Ql-979 1-4 II-3 11-62 11-42 Ql-980 1-4 II-3 11-76 11-42 Ql-981 1-4 II-3 11-78 11-42 Ql-982 1-4 II-3 11-84 11-42 Ql-983 1-4 II-3 11-86 11-42 Ql-984 1-4 II-3 11-92 11-42 Ql-985 1-4 II-3 Ii-la 11-42 Ql-986 1-4 II-3 II-2a 11-42 Ql-987 1-4 II-3 II-3a 11-42 Ql-988 1-4 II-3 II-4a 11-42 Ql-989 1-4 II-3 II-5a 11-42 Ql-990 1-4 II-6 II-8 11-42 Ql-991 1-4 II-6 II-11 11-42 Ql-992 1-4 II-6 11-16 11-42

- 261 030875

Ql-993 1-4 II-6 11-21 11-42 Ql-994 1-4 II-6 11-26 11-42 Ql-995 1-4 II-6 11-32 11-42 Ql-996 1-4 II-6 11-37 11-42 Ql-997 1-4 II-6 11-39 11-42 Ql-998 1-4 II-6 11-50 11-42 Ql-999 1-4 II-6 11-62 11-42 Ql-1000 1-4 II-6 11-76 11-42 Ql-1001 1-4 II-6 11-78 11-42 Ql-1002 1-4 II-6 11-84 11-42 Ql-1003 1-4 II-6 11-86 11-42 Ql-1004 1-4 II-6 11-92 11-42 Ql-1005 1-4 II-6 Ii-la 11-42 Ql-1006 1-4 II-6 II-2a 11-42 Ql-1007 1-4 II-6 II-3a 11-42 Ql-1008 1-4 II-6 II-4a 11-42 Ql-1009 1-4 II-6 II-5 a 11-42 Ql-1010 1-4 II-8 II-11 11-42 Ql-1011 1-4 II-8 11-16 11-42 Ql-1012 1-4 II-8 11-21 11-42 Ql-1013 1-4 II-8 11-26 11-42 Ql-1014 1-4 II-8 11-32 11-42 Ql-1015 1-4 II-8 11-37 11-42 Ql-1016 1-4 II-8 11-39 11-42 Ql-1017 1-4 II-8 11-50 11-42 Ql-1018 1-4 II-8 11-62 11-42 Ql-1019 1-4 II-8 11-76 11-42 Ql-1020 1-4 II-8 11-78 11-42 Ql-1021 1-4 II-8 11-84 11-42 Ql-1022 1-4 II-8 11-86 11-42 Ql-1023 1-4 II-8 11-92 11-42 Ql-1024 1-4 II-8 Ii-la 11-42 Ql-1025 1-4 II-8 II-2a 11-42 Ql-1026 1-4 II-8 II-3a 11-42 Ql-1027 1-4 II-8 II-4a 11-42 Ql-1028 1-4 II-8 II-5 a 11-42 Ql-1029 1-4 II-11 11-16 11-42 Ql-1030 1-4 II-11 11-21 11-42 Ql-1031 1-4 II-11 11-26 11-42 Ql-1032 1-4 II-11 11-32 11-42 Ql-1033 1-4 II-11 11-37 11-42 Ql-1034 1-4 II-11 11-39 11-42 Ql-1035 1-4 II-11 11-50 11-42 Ql-1036 1-4 II-11 11-62 11-42 Ql-1037 1-4 II-11 11-76 11-42 Ql-1038 1-4 II-11 11-78 11-42

- 262 030875

Ql-1039 1-4 II-11 11-84 11-42 Ql-1040 1-4 II-11 11-86 11-42 Ql-1041 1-4 II-11 11-92 11-42 Ql-1042 1-4 II-11 Ii-la 11-42 Ql-1043 1-4 II-11 II-2a 11-42 Ql-1044 1-4 II-11 II-3a 11-42 Ql-1045 1-4 II-11 II-4a 11-42 Ql-1046 1-4 II-11 II-5a 11-42 Ql-1047 1-4 11-16 11-21 11-42 Ql-1048 1-4 11-16 11-26 11-42 Ql-1049 1-4 11-16 11-32 11-42 Ql-1050 1-4 11-16 11-37 11-42 Ql-1051 1-4 11-16 11-39 11-42 Ql-1052 1-4 11-16 11-50 11-42 Ql-1053 1-4 11-16 11-62 11-42 Ql-1054 1-4 11-16 11-76 11-42 Ql-1055 1-4 11-16 11-78 11-42 Ql-1056 1-4 11-16 11-84 11-42 Ql-1057 1-4 11-16 11-86 11-42 Ql-1058 1-4 11-16 11-92 11-42 Ql-1059 1-4 11-16 Ii-la 11-42 Ql-1060 1-4 11-16 II-2a 11-42 Ql-1061 1-4 11-16 II-3a 11-42 Ql-1062 1-4 11-16 II-4a 11-42 Ql-1063 1-4 11-16 II-5a 11-42 Ql-1064 1-4 11-21 11-26 11-42 Ql-1065 1-4 11-21 11-32 11-42 Ql-1066 1-4 11-21 11-37 11-42 Ql-1067 1-4 11-21 11-39 11-42 Ql-1068 1-4 11-21 11-50 11-42 Ql-1069 1-4 11-21 11-62 11-42 Ql-1070 1-4 11-21 11-76 11-42 Ql-1071 1-4 11-21 11-78 11-42 Ql-1072 1-4 11-21 11-84 11-42 Ql-1073 1-4 11-21 11-86 11-42 Ql-1074 1-4 11-21 11-92 11-42 Ql-1075 1-4 11-21 Ii-la 11-42 Ql-1076 1-4 11-21 II-2a 11-42 Ql-1077 1-4 11-21 II-3a 11-42 Ql-1078 1-4 11-21 II-4a 11-42 Ql-1079 1-4 11-21 II-5a 11-42 Ql-1080 1-4 11-26 11-32 11-42 Ql-1081 1-4 11-26 11-37 11-42 Ql-1082 1-4 11-26 11-39 11-42 Ql-1083 1-4 11-26 11-50 11-42 Ql-1084 1-4 11-26 11-62 11-42

- 263 030875

Ql-1085 1-4 11-26 11-76 11-42 Ql-1086 1-4 11-26 11-78 11-42 Ql-1087 1-4 11-26 11-84 11-42 Ql-1088 1-4 11-26 11-86 11-42 Ql-1089 1-4 11-26 11-92 11-42 Ql-1090 1-4 11-26 Ii-la 11-42 Ql-1091 1-4 11-26 II-2a 11-42 Ql-1092 1-4 11-26 II-3a 11-42 Ql-1093 1-4 11-26 II-4a 11-42 Ql-1094 1-4 11-26 II-5 a 11-42 Ql-1095 1-4 11-32 11-37 11-42 Ql-1096 1-4 11-32 11-39 11-42 Ql-1097 1-4 11-32 11-50 11-42 Ql-1098 1-4 11-32 11-62 11-42 Ql-1099 1-4 11-32 11-76 11-42 Ql-1100 1-4 11-32 11-78 11-42 Ql-1101 1-4 11-32 11-84 11-42 Ql-1102 1-4 11-32 11-86 11-42 Ql-1103 1-4 11-32 11-92 11-42 Ql-1104 1-4 11-32 Ii-la 11-42 Ql-1105 1-4 11-32 II-2a 11-42 Ql-1106 1-4 11-32 II-3a 11-42 Ql-1107 1-4 11-32 II-4a 11-42 Ql-1108 1-4 11-32 II-5 a 11-42 Ql-1109 1-4 11-37 11-39 11-42 Ql-1110 1-4 11-37 11-50 11-42 Ql-1111 1-4 11-37 11-62 11-42 Ql-1112 1-4 11-37 11-76 11-42 Ql-1113 1-4 11-37 11-78 11-42 Ql-1114 1-4 11-37 11-84 11-42 Ql-1115 1-4 11-37 11-86 11-42 Ql-1116 1-4 11-37 11-92 11-42 Ql-1117 1-4 11-37 Ii-la 11-42 Ql-1118 1-4 11-37 II-2a 11-42 Ql-1119 1-4 11-37 II-3a 11-42 Ql-1120 1-4 11-37 II-4a 11-42 Ql-1121 1-4 11-37 II-5 a 11-42 Ql-1122 1-4 11-39 11-50 11-42 Ql-1123 1-4 11-39 11-62 11-42 Ql-1124 1-4 11-39 11-76 11-42 Ql-1125 1-4 11-39 11-78 11-42 Ql-1126 1-4 11-39 11-84 11-42 Ql-1127 1-4 11-39 11-86 11-42 Ql-1128 1-4 11-39 11-92 11-42 Ql-1129 1-4 11-39 Ii-la 11-42 Ql-1130 1-4 11-39 II-2a 11-42

- 264 030875

Ql-1131 1-4 11-39 II-3a 11-42 Ql-1132 1-4 11-39 II-4a 11-42 Ql-1133 1-4 11-39 II-5a 11-42 Ql-1134 1-4 11-50 11-62 11-42 Ql-1135 1-4 11-50 11-76 11-42 Ql-1136 1-4 11-50 11-78 11-42 Ql-1137 1-4 11-50 11-84 11-42 Ql-1138 1-4 11-50 11-86 11-42 Ql-1139 1-4 11-50 11-92 11-42 Ql-1140 1-4 11-50 Ii-la 11-42 Ql-1141 1-4 11-50 II-2a 11-42 Ql-1142 1-4 11-50 II-3a 11-42 Ql-1143 1-4 11-50 II-4a 11-42 Ql-1144 1-4 11-50 II-5a 11-42 Ql-1145 1-4 11-62 11-76 11-42 Ql-1146 1-4 11-62 11-78 11-42 Ql-1147 1-4 11-62 11-84 11-42 Ql-1148 1-4 11-62 11-86 11-42 Ql-1149 1-4 11-62 11-92 11-42 Ql-1150 1-4 11-62 Ii-la 11-42 Ql-1151 1-4 11-62 II-2a 11-42 Ql-1152 1-4 11-62 II-3a 11-42 Ql-1153 1-4 11-62 II-4a 11-42 Ql-1154 1-4 11-62 II-5a 11-42 Ql-1155 1-4 11-76 11-78 11-42 Ql-1156 1-4 11-76 11-84 11-42 Ql-1157 1-4 11-76 11-86 11-42 Ql-1158 1-4 11-76 11-92 11-42 Ql-1159 1-4 11-76 Ii-la 11-42 Ql-1160 1-4 11-76 II-2a 11-42 Ql-1161 1-4 11-76 II-3a 11-42 Ql-1162 1-4 11-76 II-4a 11-42 Ql-1163 1-4 11-76 II-5a 11-42 Ql-1164 1-4 11-78 11-84 11-42 Ql-1165 1-4 11-78 11-86 11-42 Ql-1166 1-4 11-78 11-92 11-42 Ql-1167 1-4 11-78 Ii-la 11-42 Ql-1168 1-4 11-78 II-2a 11-42 Ql-1169 1-4 11-78 II-3a 11-42 Ql-1170 1-4 11-78 II-4a 11-42 Ql-1171 1-4 11-78 II-5a 11-42 Ql-1172 1-4 11-84 11-86 11-42 Ql-1173 1-4 11-84 11-92 11-42 Ql-1174 1-4 11-84 Ii-la 11-42 Ql-1175 1-4 11-84 II-2a 11-42 Ql-1176 1-4 11-84 II-3a 11-42

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Ql-1177 1-4 11-84 II-4a 11-42 Ql-1178 1-4 11-84 II-5 a 11-42 Ql-1179 1-4 11-86 11-92 11-42 Ql-1180 1-4 11-86 Ii-la 11-42 Ql-1181 1-4 11-86 II-2a 11-42 Ql-1182 1-4 11-86 II-3a 11-42 Ql-1183 1-4 11-86 II-4a 11-42 Ql-1184 1-4 11-86 II-5 a 11-42 Ql-1185 1-4 11-92 Ii-la 11-42 Ql-1186 1-4 11-92 II-2a 11-42 Ql-1187 1-4 11-92 II-3a 11-42 Ql-1188 1-4 11-92 II-4a 11-42 Ql-1189 1-4 11-92 II-5 a 11-42 Ql-1190 1-4 Ii-la II-2a 11-42 Ql-1191 1-4 Ii-la II-3a 11-42 Ql-1192 1-4 Ii-la II-4a 11-42 Ql-1193 1-4 Ii-la II-5 a 11-42 Ql-1194 1-4 II-2a II-3a 11-42 Ql-1195 1-4 II-2a II-4a 11-42 Ql-1196 1-4 II-2a II-5 a 11-42 Ql-1197 1-4 II-3a II-4a 11-42 Ql-1198 1-4 II-3a II-5 a 11-42 Ql-1199 1-4 II-4a II-5 a 11-42 Ql-1200 1-4 II-3 II-6 11-66 Ql-1201 1-4 II-3 II-8 11-66 Ql-1202 1-4 II-3 II-11 11-66 Ql-1203 1-4 II-3 11-16 11-66 Ql-1204 1-4 II-3 11-21 11-66 Ql-1205 1-4 II-3 11-26 11-66 Ql-1206 1-4 II-3 11-32 11-66 Ql-1207 1-4 II-3 11-37 11-66 Ql-1208 1-4 II-3 11-39 11-66 Ql-1209 1-4 II-3 11-42 11-66 Ql-1210 1-4 II-3 11-50 11-66 Ql-1211 1-4 II-3 11-62 11-66 Ql-1212 1-4 II-3 11-76 11-66 Ql-1213 1-4 II-3 11-78 11-66 Ql-1214 1-4 II-3 11-84 11-66 Ql-1215 1-4 II-3 11-86 11-66 Ql-1216 1-4 II-3 11-92 11-66 Ql-1217 1-4 II-3 Ii-la 11-66 Ql-1218 1-4 II-3 II-2a 11-66 Ql-1219 1-4 II-3 II-3a 11-66 Ql-1220 1-4 II-3 II-4a 11-66 Ql-1221 1-4 II-3 II-5 a 11-66 Ql-1222 1-4 II-6 II-8 11-66

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Ql-1223 1-4 II-6 II-11 11-66 Ql-1224 1-4 II-6 11-16 11-66 Ql-1225 1-4 II-6 11-21 11-66 Ql-1226 1-4 II-6 11-26 11-66 Ql-1227 1-4 II-6 11-32 11-66 Ql-1228 1-4 II-6 11-37 11-66 Ql-1229 1-4 II-6 11-39 11-66 Ql-1230 1-4 II-6 11-42 11-66 Ql-1231 1-4 II-6 11-50 11-66 Ql-1232 1-4 II-6 11-62 11-66 Ql-1233 1-4 II-6 11-76 11-66 Ql-1234 1-4 II-6 11-78 11-66 Ql-1235 1-4 II-6 11-84 11-66 Ql-1236 1-4 II-6 11-86 11-66 Ql-1237 1-4 II-6 11-92 11-66 Ql-1238 1-4 II-6 Ii-la 11-66 Ql-1239 1-4 II-6 II-2a 11-66 Ql-1240 1-4 II-6 II-3a 11-66 Ql-1241 1-4 II-6 II-4a 11-66 Ql-1242 1-4 II-6 II-5a 11-66 Ql-1243 1-4 II-8 II-11 11-66 Ql-1244 1-4 II-8 11-16 11-66 Ql-1245 1-4 II-8 11-21 11-66 Ql-1246 1-4 II-8 11-26 11-66 Ql-1247 1-4 II-8 11-32 11-66 Ql-1248 1-4 II-8 11-37 11-66 Ql-1249 1-4 II-8 11-39 11-66 Ql-1250 1-4 II-8 11-42 11-66 Ql-1251 1-4 II-8 11-50 11-66 Ql-1252 1-4 II-8 11-62 11-66 Ql-1253 1-4 II-8 11-76 11-66 Ql-1254 1-4 II-8 11-78 11-66 Ql-1255 1-4 II-8 11-84 11-66 Ql-1256 1-4 II-8 11-86 11-66 Ql-1257 1-4 II-8 11-92 11-66 Ql-1258 1-4 II-8 Ii-la 11-66 Ql-1259 1-4 II-8 II-2a 11-66 Ql-1260 1-4 II-8 II-3a 11-66 Ql-1261 1-4 II-8 II-4a 11-66 Ql-1262 1-4 II-8 II-5a 11-66 Ql-1263 1-4 II-11 11-16 11-66 Ql-1264 1-4 II-11 11-21 11-66 Ql-1265 1-4 II-11 11-26 11-66 Ql-1266 1-4 II-11 11-32 11-66 Ql-1267 1-4 II-11 11-37 11-66 Ql-1268 1-4 II-11 11-39 11-66

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Ql-1269 1-4 II-11 11-42 11-66 Ql-1270 1-4 II-11 11-50 11-66 Ql-1271 1-4 II-11 11-62 11-66 Ql-1272 1-4 II-11 11-76 11-66 Ql-1273 1-4 II-11 11-78 11-66 Ql-1274 1-4 II-11 11-84 11-66 Ql-1275 1-4 II-11 11-86 11-66 Ql-1276 1-4 II-11 11-92 11-66 Ql-1277 1-4 II-11 Ii-la 11-66 Ql-1278 1-4 II-11 II-2a 11-66 Ql-1279 1-4 II-11 II-3a 11-66 Ql-1280 1-4 II-11 II-4a 11-66 Ql-1281 1-4 II-11 II-5 a 11-66 Ql-1282 1-4 11-16 11-21 11-66 Ql-1283 1-4 11-16 11-26 11-66 Ql-1284 1-4 11-16 11-32 11-66 Ql-1285 1-4 11-16 11-37 11-66 Ql-1286 1-4 11-16 11-39 11-66 Ql-1287 1-4 11-16 11-42 11-66 Ql-1288 1-4 11-16 11-50 11-66 Ql-1289 1-4 11-16 11-62 11-66 Ql-1290 1-4 11-16 11-76 11-66 Ql-1291 1-4 11-16 11-78 11-66 Ql-1292 1-4 11-16 11-84 11-66 Ql-1293 1-4 11-16 11-86 11-66 Ql-1294 1-4 11-16 11-92 11-66 Ql-1295 1-4 11-16 Ii-la 11-66 Ql-1296 1-4 11-16 II-2a 11-66 Ql-1297 1-4 11-16 II-3a 11-66 Ql-1298 1-4 11-16 II-4a 11-66 Ql-1299 1-4 11-16 II-5 a 11-66 Ql-1300 1-4 11-21 11-26 11-66 Ql-1301 1-4 11-21 11-32 11-66 Ql-1302 1-4 11-21 11-37 11-66 Ql-1303 1-4 11-21 11-39 11-66 Ql-1304 1-4 11-21 11-42 11-66 Ql-1305 1-4 11-21 11-50 11-66 Ql-1306 1-4 11-21 11-62 11-66 Ql-1307 1-4 11-21 11-76 11-66 Ql-1308 1-4 11-21 11-78 11-66 Ql-1309 1-4 11-21 11-84 11-66 Ql-1310 1-4 11-21 11-86 11-66 Ql-1311 1-4 11-21 11-92 11-66 Ql-1312 1-4 11-21 Ii-la 11-66 Ql-1313 1-4 11-21 II-2a 11-66 Ql-1314 1-4 11-21 II-3a 11-66

- 268 030875

Ql-1315 1-4 11-21 II-4a 11-66 Ql-1316 1-4 11-21 II-5a 11-66 Ql-1317 1-4 11-26 11-32 11-66 Ql-1318 1-4 11-26 11-37 11-66 Ql-1319 1-4 11-26 11-39 11-66 Ql-1320 1-4 11-26 11-42 11-66 Ql-1321 1-4 11-26 11-50 11-66 Ql-1322 1-4 11-26 11-62 11-66 Ql-1323 1-4 11-26 11-76 11-66 Ql-1324 1-4 11-26 11-78 11-66 Ql-1325 1-4 11-26 11-84 11-66 Ql-1326 1-4 11-26 11-86 11-66 Ql-1327 1-4 11-26 11-92 11-66 Ql-1328 1-4 11-26 Ii-la 11-66 Ql-1329 1-4 11-26 II-2a 11-66 Ql-1330 1-4 11-26 II-3a 11-66 Ql-1331 1-4 11-26 II-4a 11-66 Ql-1332 1-4 11-26 II-5a 11-66 Ql-1333 1-4 11-32 11-37 11-66 Ql-1334 1-4 11-32 11-39 11-66 Ql-1335 1-4 11-32 11-42 11-66 Ql-1336 1-4 11-32 11-50 11-66 Ql-1337 1-4 11-32 11-62 11-66 Ql-1338 1-4 11-32 11-76 11-66 Ql-1339 1-4 11-32 11-78 11-66 Ql-1340 1-4 11-32 11-84 11-66 Ql-1341 1-4 11-32 11-86 11-66 Ql-1342 1-4 11-32 11-92 11-66 Ql-1343 1-4 11-32 Ii-la 11-66 Ql-1344 1-4 11-32 II-2a 11-66 Ql-1345 1-4 11-32 II-3a 11-66 Ql-1346 1-4 11-32 II-4a 11-66 Ql-1347 1-4 11-32 II-5a 11-66 Ql-1348 1-4 11-37 11-39 11-66 Ql-1349 1-4 11-37 11-42 11-66 Ql-1350 1-4 11-37 11-50 11-66 Ql-1351 1-4 11-37 11-62 11-66 Ql-1352 1-4 11-37 11-76 11-66 Ql-1353 1-4 11-37 11-78 11-66 Ql-1354 1-4 11-37 11-84 11-66 Ql-1355 1-4 11-37 11-86 11-66 Ql-1356 1-4 11-37 11-92 11-66 Ql-1357 1-4 11-37 Ii-la 11-66 Ql-1358 1-4 11-37 II-2a 11-66 Ql-1359 1-4 11-37 II-3a 11-66 Ql-1360 1-4 11-37 II-4a 11-66

- 269 030875

Ql-1361 1-4 11-37 II-5 a 11-66 Ql-1362 1-4 11-39 11-42 11-66 Ql-1363 1-4 11-39 11-50 11-66 Ql-1364 1-4 11-39 11-62 11-66 Ql-1365 1-4 11-39 11-76 11-66 Ql-1366 1-4 11-39 11-78 11-66 Ql-1367 1-4 11-39 11-84 11-66 Ql-1368 1-4 11-39 11-86 11-66 Ql-1369 1-4 11-39 11-92 11-66 Ql-1370 1-4 11-39 Ii-la 11-66 Ql-1371 1-4 11-39 II-2a 11-66 Ql-1372 1-4 11-39 II-3a 11-66 Ql-1373 1-4 11-39 II-4a 11-66 Ql-1374 1-4 11-39 II-5 a 11-66 Ql-1375 1-4 11-42 11-50 11-66 Ql-1376 1-4 11-42 11-62 11-66 Ql-1377 1-4 11-42 11-76 11-66 Ql-1378 1-4 11-42 11-78 11-66 Ql-1379 1-4 11-42 11-84 11-66 Ql-1380 1-4 11-42 11-86 11-66 Ql-1381 1-4 11-42 11-92 11-66 Ql-1382 1-4 11-42 Ii-la 11-66 Ql-1383 1-4 11-42 II-2a 11-66 Ql-1384 1-4 11-42 II-3a 11-66 Ql-1385 1-4 11-42 II-4a 11-66 Ql-1386 1-4 11-42 II-5 a 11-66 Ql-1387 1-4 11-50 11-62 11-66 Ql-1388 1-4 11-50 11-76 11-66 Ql-1389 1-4 11-50 11-78 11-66 Ql-1390 1-4 11-50 11-84 11-66 Ql-1391 1-4 11-50 11-86 11-66 Ql-1392 1-4 11-50 11-92 11-66 Ql-1393 1-4 11-50 Ii-la 11-66 Ql-1394 1-4 11-50 II-2a 11-66 Ql-1395 1-4 11-50 II-3a 11-66 Ql-1396 1-4 11-50 II-4a 11-66 Ql-1397 1-4 11-50 II-5 a 11-66 Ql-1398 1-4 11-62 11-76 11-66 Ql-1399 1-4 11-62 11-78 11-66 Ql-1400 1-4 11-62 11-84 11-66 Ql-1401 1-4 11-62 11-86 11-66 Ql-1402 1-4 11-62 11-92 11-66 Ql-1403 1-4 11-62 Ii-la 11-66 Ql-1404 1-4 11-62 II-2a 11-66 Ql-1405 1-4 11-62 II-3a 11-66 Ql-1406 1-4 11-62 II-4a 11-66

- 270 030875

Ql-1407 1-4 11-62 II-5a 11-66 Ql-1408 1-4 11-76 11-78 11-66 Ql-1409 1-4 11-76 11-84 11-66 Ql-1410 1-4 11-76 11-86 11-66 Ql-1411 1-4 11-76 11-92 11-66 Ql-1412 1-4 11-76 Ii-la 11-66 Ql-1413 1-4 11-76 II-2a 11-66 Ql-1414 1-4 11-76 II-3a 11-66 Ql-1415 1-4 11-76 II-4a 11-66 Ql-1416 1-4 11-76 II-5a 11-66 Ql-1417 1-4 11-78 11-84 11-66 Ql-1418 1-4 11-78 11-86 11-66 Ql-1419 1-4 11-78 11-92 11-66 Ql-1420 1-4 11-78 Ii-la 11-66 Ql-1421 1-4 11-78 II-2a 11-66 Ql-1422 1-4 11-78 II-3a 11-66 Ql-1423 1-4 11-78 II-4a 11-66 Ql-1424 1-4 11-78 II-5a 11-66 Ql-1425 1-4 11-84 11-86 11-66 Ql-1426 1-4 11-84 11-92 11-66 Ql-1427 1-4 11-84 Ii-la 11-66 Ql-1428 1-4 11-84 II-2a 11-66 Ql-1429 1-4 11-84 II-3a 11-66 Ql-1430 1-4 11-84 II-4a 11-66 Ql-1431 1-4 11-84 II-5a 11-66 Ql-1432 1-4 11-86 11-92 11-66 Ql-1433 1-4 11-86 Ii-la 11-66 Ql-1434 1-4 11-86 II-2a 11-66 Ql-1435 1-4 11-86 II-3a 11-66 Ql-1436 1-4 11-86 II-4a 11-66 Ql-1437 1-4 11-86 II-5a 11-66 Ql-1438 1-4 11-92 Ii-la 11-66 Ql-1439 1-4 11-92 II-2a 11-66 Ql-1440 1-4 11-92 II-3a 11-66 Ql-1441 1-4 11-92 II-4a 11-66 Ql-1442 1-4 11-92 II-5a 11-66 Ql-1443 1-4 Ii-la II-2a 11-66 Ql-1444 1-4 Ii-la II-3a 11-66 Ql-1445 1-4 Ii-la II-4a 11-66 Ql-1446 1-4 Ii-la II-5a 11-66 Ql-1447 1-4 II-2a II-3a 11-66 Ql-1448 1-4 II-2a II-4a 11-66 Ql-1449 1-4 II-2a II-5a 11-66 Ql-1450 1-4 II-3a II-4a 11-66 Ql-1451 1-4 II-3a II-5a 11-66 Ql-1452 1-4 II-4a II-5a 11-66

- 271 030875

Ql-1453 1-5 II-3 II-6 11-42 Ql-1454 1-5 II-3 II-8 11-42 Ql-1455 1-5 II-3 II-11 11-42 Ql-1456 1-5 II-3 11-16 11-42 Ql-1457 1-5 II-3 11-21 11-42 Ql-1458 1-5 II-3 11-26 11-42 Ql-1459 1-5 II-3 11-32 11-42 Ql-1460 1-5 II-3 11-37 11-42 Ql-1461 1-5 II-3 11-39 11-42 Ql-1462 1-5 II-3 11-50 11-42 Ql-1463 1-5 II-3 11-62 11-42 Ql-1464 1-5 II-3 11-76 11-42 Ql-1465 1-5 II-3 11-78 11-42 Ql-1466 1-5 II-3 11-84 11-42 Ql-1467 1-5 II-3 11-86 11-42 Ql-1468 1-5 II-3 11-92 11-42 Ql-1469 1-5 II-3 Ii-la 11-42 Ql-1470 1-5 II-3 II-2a 11-42 Ql-1471 1-5 II-3 II-3a 11-42 Ql-1472 1-5 II-3 II-4a 11-42 Ql-1473 1-5 II-3 II-5 a 11-42 Ql-1474 1-5 II-6 II-8 11-42 Ql-1475 1-5 II-6 II-11 11-42 Ql-1476 1-5 II-6 11-16 11-42 Ql-1477 1-5 II-6 11-21 11-42 Ql-1478 1-5 II-6 11-26 11-42 Ql-1479 1-5 II-6 11-32 11-42 Ql-1480 1-5 II-6 11-37 11-42 Ql-1481 1-5 II-6 11-39 11-42 Ql-1482 1-5 II-6 11-50 11-42 Ql-1483 1-5 II-6 11-62 11-42 Ql-1484 1-5 II-6 11-76 11-42 Ql-1485 1-5 II-6 11-78 11-42 Ql-1486 1-5 II-6 11-84 11-42 Ql-1487 1-5 II-6 11-86 11-42 Ql-1488 1-5 II-6 11-92 11-42 Ql-1489 1-5 II-6 Ii-la 11-42 Ql-1490 1-5 II-6 II-2a 11-42 Ql-1491 1-5 II-6 II-3a 11-42 Ql-1492 1-5 II-6 II-4a 11-42 Ql-1493 1-5 II-6 II-5 a 11-42 Ql-1494 1-5 II-8 II-11 11-42 Ql-1495 1-5 II-8 11-16 11-42 Ql-1496 1-5 II-8 11-21 11-42 Ql-1497 1-5 II-8 11-26 11-42 Ql-1498 1-5 II-8 11-32 11-42

- 272 030875

Ql-1499 1-5 II-8 11-37 11-42 Ql-1500 1-5 II-8 11-39 11-42 Ql-1501 1-5 II-8 11-50 11-42 Ql-1502 1-5 II-8 11-62 11-42 Ql-1503 1-5 II-8 11-76 11-42 Ql-1504 1-5 II-8 11-78 11-42 Ql-1505 1-5 II-8 11-84 11-42 Ql-1506 1-5 II-8 11-86 11-42 Ql-1507 1-5 II-8 11-92 11-42 Ql-1508 1-5 II-8 Ii-la 11-42 Ql-1509 1-5 II-8 II-2a 11-42 Ql-1510 1-5 II-8 II-3a 11-42 Ql-1511 1-5 II-8 II-4a 11-42 Ql-1512 1-5 II-8 II-5a 11-42 Ql-1513 1-5 II-11 11-16 11-42 Ql-1514 1-5 II-11 11-21 11-42 Ql-1515 1-5 II-11 11-26 11-42 Ql-1516 1-5 II-11 11-32 11-42 Ql-1517 1-5 II-11 11-37 11-42 Ql-1518 1-5 II-11 11-39 11-42 Ql-1519 1-5 II-11 11-50 11-42 Ql-1520 1-5 II-11 11-62 11-42 Ql-1521 1-5 II-11 11-76 11-42 Ql-1522 1-5 II-11 11-78 11-42 Ql-1523 1-5 II-11 11-84 11-42 Ql-1524 1-5 II-11 11-86 11-42 Ql-1525 1-5 II-11 11-92 11-42 Ql-1526 1-5 II-11 Ii-la 11-42 Ql-1527 1-5 II-11 II-2a 11-42 Ql-1528 1-5 II-11 II-3a 11-42 Ql-1529 1-5 II-11 II-4a 11-42 Ql-1530 1-5 II-11 II-5a 11-42 Ql-1531 1-5 11-16 11-21 11-42 Ql-1532 1-5 11-16 11-26 11-42 Ql-1533 1-5 11-16 11-32 11-42 Ql-1534 1-5 11-16 11-37 11-42 Ql-1535 1-5 11-16 11-39 11-42 Ql-1536 1-5 11-16 11-50 11-42 Ql-1537 1-5 11-16 11-62 11-42 Ql-1538 1-5 11-16 11-76 11-42 Ql-1539 1-5 11-16 11-78 11-42 Ql-1540 1-5 11-16 11-84 11-42 Ql-1541 1-5 11-16 11-86 11-42 Ql-1542 1-5 11-16 11-92 11-42 Ql-1543 1-5 11-16 Ii-la 11-42 Ql-1544 1-5 11-16 II-2a 11-42

- 273 030875

Ql-1545 1-5 11-16 II-3a 11-42 Ql-1546 1-5 11-16 II-4a 11-42 Ql-1547 1-5 11-16 II-5 a 11-42 Ql-1548 1-5 11-21 11-26 11-42 Ql-1549 1-5 11-21 11-32 11-42 Ql-1550 1-5 11-21 11-37 11-42 Ql-1551 1-5 11-21 11-39 11-42 Ql-1552 1-5 11-21 11-50 11-42 Ql-1553 1-5 11-21 11-62 11-42 Ql-1554 1-5 11-21 11-76 11-42 Ql-1555 1-5 11-21 11-78 11-42 Ql-1556 1-5 11-21 11-84 11-42 Ql-1557 1-5 11-21 11-86 11-42 Ql-1558 1-5 11-21 11-92 11-42 Ql-1559 1-5 11-21 Ii-la 11-42 Ql-1560 1-5 11-21 II-2a 11-42 Ql-1561 1-5 11-21 II-3a 11-42 Ql-1562 1-5 11-21 II-4a 11-42 Ql-1563 1-5 11-21 II-5 a 11-42 Ql-1564 1-5 11-26 11-32 11-42 Ql-1565 1-5 11-26 11-37 11-42 Ql-1566 1-5 11-26 11-39 11-42 Ql-1567 1-5 11-26 11-50 11-42 Ql-1568 1-5 11-26 11-62 11-42 Ql-1569 1-5 11-26 11-76 11-42 Ql-1570 1-5 11-26 11-78 11-42 Ql-1571 1-5 11-26 11-84 11-42 Ql-1572 1-5 11-26 11-86 11-42 Ql-1573 1-5 11-26 11-92 11-42 Ql-1574 1-5 11-26 Ii-la 11-42 Ql-1575 1-5 11-26 II-2a 11-42 Ql-1576 1-5 11-26 II-3a 11-42 Ql-1577 1-5 11-26 II-4a 11-42 Ql-1578 1-5 11-26 II-5 a 11-42 Ql-1579 1-5 11-32 11-37 11-42 Ql-1580 1-5 11-32 11-39 11-42 Ql-1581 1-5 11-32 11-50 11-42 Ql-1582 1-5 11-32 11-62 11-42 Ql-1583 1-5 11-32 11-76 11-42 Ql-1584 1-5 11-32 11-78 11-42 Ql-1585 1-5 11-32 11-84 11-42 Ql-1586 1-5 11-32 11-86 11-42 Ql-1587 1-5 11-32 11-92 11-42 Ql-1588 1-5 11-32 Ii-la 11-42 Ql-1589 1-5 11-32 II-2a 11-42 Ql-1590 1-5 11-32 II-3a 11-42

- 274 030875

Ql-1591 1-5 11-32 II-4a 11-42 Ql-1592 1-5 11-32 II-5a 11-42 Ql-1593 1-5 11-37 11-39 11-42 Ql-1594 1-5 11-37 11-50 11-42 Ql-1595 1-5 11-37 11-62 11-42 Ql-1596 1-5 11-37 11-76 11-42 Ql-1597 1-5 11-37 11-78 11-42 Ql-1598 1-5 11-37 11-84 11-42 Ql-1599 1-5 11-37 11-86 11-42 Ql-1600 1-5 11-37 11-92 11-42 Ql-1601 1-5 11-37 Ii-la 11-42 Ql-1602 1-5 11-37 II-2a 11-42 Ql-1603 1-5 11-37 II-3a 11-42 Ql-1604 1-5 11-37 II-4a 11-42 Ql-1605 1-5 11-37 II-5a 11-42 Ql-1606 1-5 11-39 11-50 11-42 Ql-1607 1-5 11-39 11-62 11-42 Ql-1608 1-5 11-39 11-76 11-42 Ql-1609 1-5 11-39 11-78 11-42 Ql-1610 1-5 11-39 11-84 11-42 Ql-1611 1-5 11-39 11-86 11-42 Ql-1612 1-5 11-39 11-92 11-42 Ql-1613 1-5 11-39 Ii-la 11-42 Ql-1614 1-5 11-39 II-2a 11-42 Ql-1615 1-5 11-39 II-3a 11-42 Ql-1616 1-5 11-39 II-4a 11-42 Ql-1617 1-5 11-39 II-5a 11-42 Ql-1618 1-5 11-50 11-62 11-42 Ql-1619 1-5 11-50 11-76 11-42 Ql-1620 1-5 11-50 11-78 11-42 Ql-1621 1-5 11-50 11-84 11-42 Ql-1622 1-5 11-50 11-86 11-42 Ql-1623 1-5 11-50 11-92 11-42 Ql-1624 1-5 11-50 Ii-la 11-42 Ql-1625 1-5 11-50 II-2a 11-42 Ql-1626 1-5 11-50 II-3a 11-42 Ql-1627 1-5 11-50 II-4a 11-42 Ql-1628 1-5 11-50 II-5a 11-42 Ql-1629 1-5 11-62 11-76 11-42 Ql-1630 1-5 11-62 11-78 11-42 Ql-1631 1-5 11-62 11-84 11-42 Ql-1632 1-5 11-62 11-86 11-42 Ql-1633 1-5 11-62 11-92 11-42 Ql-1634 1-5 11-62 Ii-la 11-42 Ql-1635 1-5 11-62 II-2a 11-42 Ql-1636 1-5 11-62 II-3a 11-42

- 275 030875

Ql-1637 1-5 11-62 II-4a 11-42 Ql-1638 1-5 11-62 II-5 a 11-42 Ql-1639 1-5 11-76 11-78 11-42 Ql-1640 1-5 11-76 11-84 11-42 Ql-1641 1-5 11-76 11-86 11-42 Ql-1642 1-5 11-76 11-92 11-42 Ql-1643 1-5 11-76 Ii-la 11-42 Ql-1644 1-5 11-76 II-2a 11-42 Ql-1645 1-5 11-76 II-3a 11-42 Ql-1646 1-5 11-76 II-4a 11-42 Ql-1647 1-5 11-76 II-5 a 11-42 Ql-1648 1-5 11-78 11-84 11-42 Ql-1649 1-5 11-78 11-86 11-42 Ql-1650 1-5 11-78 11-92 11-42 Ql-1651 1-5 11-78 Ii-la 11-42 Ql-1652 1-5 11-78 II-2a 11-42 Ql-1653 1-5 11-78 II-3a 11-42 Ql-1654 1-5 11-78 II-4a 11-42 Ql-1655 1-5 11-78 II-5 a 11-42 Ql-1656 1-5 11-84 11-86 11-42 Ql-1657 1-5 11-84 11-92 11-42 Ql-1658 1-5 11-84 Ii-la 11-42 Ql-1659 1-5 11-84 II-2a 11-42 Ql-1660 1-5 11-84 II-3a 11-42 Ql-1661 1-5 11-84 II-4a 11-42 Ql-1662 1-5 11-84 II-5 a 11-42 Ql-1663 1-5 11-86 11-92 11-42 Ql-1664 1-5 11-86 Ii-la 11-42 Ql-1665 1-5 11-86 II-2a 11-42 Ql-1666 1-5 11-86 II-3a 11-42 Ql-1667 1-5 11-86 II-4a 11-42 Ql-1668 1-5 11-86 II-5 a 11-42 Ql-1669 1-5 11-92 Ii-la 11-42 Ql-1670 1-5 11-92 II-2a 11-42 Ql-1671 1-5 11-92 II-3a 11-42 Ql-1672 1-5 11-92 II-4a 11-42 Ql-1673 1-5 11-92 II-5 a 11-42 Ql-1674 1-5 Ii-la II-2a 11-42 Ql-1675 1-5 Ii-la II-3a 11-42 Ql-1676 1-5 Ii-la II-4a 11-42 Ql-1677 1-5 Ii-la II-5 a 11-42 Ql-1678 1-5 II-2a II-3a 11-42 Ql-1679 1-5 II-2a II-4a 11-42 Ql-1680 1-5 II-2a II-5 a 11-42 Ql-1681 1-5 II-3a II-4a 11-42 Ql-1682 1-5 II-3a II-5 a 11-42

- 276 030875

Ql-1683 1-5 II-4a II-5a 11-42 Ql-1684 1-5 II-3 II-6 11-66 Ql-1685 1-5 II-3 II-8 11-66 Ql-1686 1-5 II-3 II-11 11-66 Ql-1687 1-5 II-3 11-16 11-66 Ql-1688 1-5 II-3 11-21 11-66 Ql-1689 1-5 II-3 11-26 11-66 Ql-1690 1-5 II-3 11-32 11-66 Ql-1691 1-5 II-3 11-37 11-66 Ql-1692 1-5 II-3 11-39 11-66 Ql-1693 1-5 II-3 11-42 11-66 Ql-1694 1-5 II-3 11-50 11-66 Ql-1695 1-5 II-3 11-62 11-66 Ql-1696 1-5 II-3 11-76 11-66 Ql-1697 1-5 II-3 11-78 11-66 Ql-1698 1-5 II-3 11-84 11-66 Ql-1699 1-5 II-3 11-86 11-66 Ql-1700 1-5 II-3 11-92 11-66 Ql-1701 1-5 II-3 Ii-la 11-66 Ql-1702 1-5 II-3 II-2a 11-66 Ql-1703 1-5 II-3 II-3a 11-66 Ql-1704 1-5 II-3 II-4a 11-66 Ql-1705 1-5 II-3 II-5a 11-66 Ql-1706 1-5 II-6 II-8 11-66 Ql-1707 1-5 II-6 II-11 11-66 Ql-1708 1-5 II-6 11-16 11-66 Ql-1709 1-5 II-6 11-21 11-66 Ql-1710 1-5 II-6 11-26 11-66 Ql-1711 1-5 II-6 11-32 11-66 Ql-1712 1-5 II-6 11-37 11-66 Ql-1713 1-5 II-6 11-39 11-66 Ql-1714 1-5 II-6 11-42 11-66 Ql-1715 1-5 II-6 11-50 11-66 Ql-1716 1-5 II-6 11-62 11-66 Ql-1717 1-5 II-6 11-76 11-66 Ql-1718 1-5 II-6 11-78 11-66 Ql-1719 1-5 II-6 11-84 11-66 Ql-1720 1-5 II-6 11-86 11-66 Ql-1721 1-5 II-6 11-92 11-66 Ql-1722 1-5 II-6 Ii-la 11-66 Ql-1723 1-5 II-6 II-2a 11-66 Ql-1724 1-5 II-6 II-3a 11-66 Ql-1725 1-5 II-6 II-4a 11-66 Ql-1726 1-5 II-6 II-5a 11-66 Ql-1727 1-5 II-8 II-11 11-66 Ql-1728 1-5 II-8 11-16 11-66

- 277 030875

Ql-1729 1-5 II-8 11-21 11-66 Ql-1730 1-5 II-8 11-26 11-66 Ql-1731 1-5 II-8 11-32 11-66 Ql-1732 1-5 II-8 11-37 11-66 Ql-1733 1-5 II-8 11-39 11-66 Ql-1734 1-5 II-8 11-42 11-66 Ql-1735 1-5 II-8 11-50 11-66 Ql-1736 1-5 II-8 11-62 11-66 Ql-1737 1-5 II-8 11-76 11-66 Ql-1738 1-5 II-8 11-78 11-66 Ql-1739 1-5 II-8 11-84 11-66 Ql-1740 1-5 II-8 11-86 11-66 Ql-1741 1-5 II-8 11-92 11-66 Ql-1742 1-5 II-8 Ii-la 11-66 Ql-1743 1-5 II-8 II-2a 11-66 Ql-1744 1-5 II-8 II-3a 11-66 Ql-1745 1-5 II-8 II-4a 11-66 Ql-1746 1-5 II-8 II-5 a 11-66 Ql-1747 1-5 II-11 11-16 11-66 Ql-1748 1-5 II-11 11-21 11-66 Ql-1749 1-5 II-11 11-26 11-66 Ql-1750 1-5 II-11 11-32 11-66 Ql-1751 1-5 II-11 11-37 11-66 Ql-1752 1-5 II-11 11-39 11-66 Ql-1753 1-5 II-11 11-42 11-66 Ql-1754 1-5 II-11 11-50 11-66 Ql-1755 1-5 II-11 11-62 11-66 Ql-1756 1-5 II-11 11-76 11-66 Ql-1757 1-5 II-11 11-78 11-66 Ql-1758 1-5 II-11 11-84 11-66 Ql-1759 1-5 II-11 11-86 11-66 Ql-1760 1-5 II-11 11-92 11-66 Ql-1761 1-5 II-11 Ii-la 11-66 Ql-1762 1-5 II-11 II-2a 11-66 Ql-1763 1-5 II-11 II-3a 11-66 Ql-1764 1-5 II-11 II-4a 11-66 Ql-1765 1-5 II-11 II-5 a 11-66 Ql-1766 1-5 11-16 11-21 11-66 Ql-1767 1-5 11-16 11-26 11-66 Ql-1768 1-5 11-16 11-32 11-66 Ql-1769 1-5 11-16 11-37 11-66 Ql-1770 1-5 11-16 11-39 11-66 Ql-1771 1-5 11-16 11-42 11-66 Ql-1772 1-5 11-16 11-50 11-66 Ql-1773 1-5 11-16 11-62 11-66 Ql-1774 1-5 11-16 11-76 11-66

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Ql-1775 1-5 11-16 11-78 11-66 Ql-1776 1-5 11-16 11-84 11-66 Ql-1777 1-5 11-16 11-86 11-66 Ql-1778 1-5 11-16 11-92 11-66 Ql-1779 1-5 11-16 Ii-la 11-66 Ql-1780 1-5 11-16 II-2a 11-66 Ql-1781 1-5 11-16 II-3a 11-66 Ql-1782 1-5 11-16 II-4a 11-66 Ql-1783 1-5 11-16 II-5a 11-66 Ql-1784 1-5 11-21 11-26 11-66 Ql-1785 1-5 11-21 11-32 11-66 Ql-1786 1-5 11-21 11-37 11-66 Ql-1787 1-5 11-21 11-39 11-66 Ql-1788 1-5 11-21 11-42 11-66 Ql-1789 1-5 11-21 11-50 11-66 Ql-1790 1-5 11-21 11-62 11-66 Ql-1791 1-5 11-21 11-76 11-66 Ql-1792 1-5 11-21 11-78 11-66 Ql-1793 1-5 11-21 11-84 11-66 Ql-1794 1-5 11-21 11-86 11-66 Ql-1795 1-5 11-21 11-92 11-66 Ql-1796 1-5 11-21 Ii-la 11-66 Ql-1797 1-5 11-21 II-2a 11-66 Ql-1798 1-5 11-21 II-3a 11-66 Ql-1799 1-5 11-21 II-4a 11-66 Ql-1800 1-5 11-21 II-5a 11-66 Ql-1801 1-5 11-26 11-32 11-66 Ql-1802 1-5 11-26 11-37 11-66 Ql-1803 1-5 11-26 11-39 11-66 Ql-1804 1-5 11-26 11-42 11-66 Ql-1805 1-5 11-26 11-50 11-66 Ql-1806 1-5 11-26 11-62 11-66 Ql-1807 1-5 11-26 11-76 11-66 Ql-1808 1-5 11-26 11-78 11-66 Ql-1809 1-5 11-26 11-84 11-66 Ql-1810 1-5 11-26 11-86 11-66 Ql-1811 1-5 11-26 11-92 11-66 Ql-1812 1-5 11-26 Ii-la 11-66 Ql-1813 1-5 11-26 II-2a 11-66 Ql-1814 1-5 11-26 II-3a 11-66 Ql-1815 1-5 11-26 II-4a 11-66 Ql-1816 1-5 11-26 II-5a 11-66 Ql-1817 1-5 11-32 11-37 11-66 Ql-1818 1-5 11-32 11-39 11-66 Ql-1819 1-5 11-32 11-42 11-66 Ql-1820 1-5 11-32 11-50 11-66

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Ql-1821 1-5 11-32 11-62 11-66 Ql-1822 1-5 11-32 11-76 11-66 Ql-1823 1-5 11-32 11-78 11-66 Ql-1824 1-5 11-32 11-84 11-66 Ql-1825 1-5 11-32 11-86 11-66 Ql-1826 1-5 11-32 11-92 11-66 Ql-1827 1-5 11-32 Ii-la 11-66 Ql-1828 1-5 11-32 II-2a 11-66 Ql-1829 1-5 11-32 II-3a 11-66 Ql-1830 1-5 11-32 II-4a 11-66 Ql-1831 1-5 11-32 II-5 a 11-66 Ql-1832 1-5 11-37 11-39 11-66 Ql-1833 1-5 11-37 11-42 11-66 Ql-1834 1-5 11-37 11-50 11-66 Ql-1835 1-5 11-37 11-62 11-66 Ql-1836 1-5 11-37 11-76 11-66 Ql-1837 1-5 11-37 11-78 11-66 Ql-1838 1-5 11-37 11-84 11-66 Ql-1839 1-5 11-37 11-86 11-66 Ql-1840 1-5 11-37 11-92 11-66 Ql-1841 1-5 11-37 Ii-la 11-66 Ql-1842 1-5 11-37 II-2a 11-66 Ql-1843 1-5 11-37 II-3a 11-66 Ql-1844 1-5 11-37 II-4a 11-66 Ql-1845 1-5 11-37 II-5 a 11-66 Ql-1846 1-5 11-39 11-42 11-66 Ql-1847 1-5 11-39 11-50 11-66 Ql-1848 1-5 11-39 11-62 11-66 Ql-1849 1-5 11-39 11-76 11-66 Ql-1850 1-5 11-39 11-78 11-66 Ql-1851 1-5 11-39 11-84 11-66 Ql-1852 1-5 11-39 11-86 11-66 Ql-1853 1-5 11-39 11-92 11-66 Ql-1854 1-5 11-39 Ii-la 11-66 Ql-1855 1-5 11-39 II-2a 11-66 Ql-1856 1-5 11-39 II-3a 11-66 Ql-1857 1-5 11-39 II-4a 11-66 Ql-1858 1-5 11-39 II-5 a 11-66 Ql-1859 1-5 11-42 11-50 11-66 Ql-1860 1-5 11-42 11-62 11-66 Ql-1861 1-5 11-42 11-76 11-66 Ql-1862 1-5 11-42 11-78 11-66 Ql-1863 1-5 11-42 11-84 11-66 Ql-1864 1-5 11-42 11-86 11-66 Ql-1865 1-5 11-42 11-92 11-66 Ql-1866 1-5 11-42 Ii-la 11-66

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Ql-1867 1-5 11-42 II-2a 11-66 Ql-1868 1-5 11-42 II-3a 11-66 Ql-1869 1-5 11-42 II-4a 11-66 Ql-1870 1-5 11-42 II-5a 11-66 Ql-1871 1-5 11-50 11-62 11-66 Ql-1872 1-5 11-50 11-76 11-66 Ql-1873 1-5 11-50 11-78 11-66 Ql-1874 1-5 11-50 11-84 11-66 Ql-1875 1-5 11-50 11-86 11-66 Ql-1876 1-5 11-50 11-92 11-66 Ql-1877 1-5 11-50 Ii-la 11-66 Ql-1878 1-5 11-50 II-2a 11-66 Ql-1879 1-5 11-50 II-3a 11-66 Ql-1880 1-5 11-50 II-4a 11-66 Ql-1881 1-5 11-50 II-5a 11-66 Ql-1882 1-5 11-62 11-76 11-66 Ql-1883 1-5 11-62 11-78 11-66 Ql-1884 1-5 11-62 11-84 11-66 Ql-1885 1-5 11-62 11-86 11-66 Ql-1886 1-5 11-62 11-92 11-66 Ql-1887 1-5 11-62 Ii-la 11-66 Ql-1888 1-5 11-62 II-2a 11-66 Ql-1889 1-5 11-62 II-3a 11-66 Ql-1890 1-5 11-62 II-4a 11-66 Ql-1891 1-5 11-62 II-5a 11-66 Ql-1892 1-5 11-76 11-78 11-66 Ql-1893 1-5 11-76 11-84 11-66 Ql-1894 1-5 11-76 11-86 11-66 Ql-1895 1-5 11-76 11-92 11-66 Ql-1896 1-5 11-76 Ii-la 11-66 Ql-1897 1-5 11-76 II-2a 11-66 Ql-1898 1-5 11-76 II-3a 11-66 Ql-1899 1-5 11-76 II-4a 11-66 Ql-1900 1-5 11-76 II-5a 11-66 Ql-1901 1-5 11-78 11-84 11-66 Ql-1902 1-5 11-78 11-86 11-66 Ql-1903 1-5 11-78 11-92 11-66 Ql-1904 1-5 11-78 Ii-la 11-66 Ql-1905 1-5 11-78 II-2a 11-66 Ql-1906 1-5 11-78 II-3a 11-66 Ql-1907 1-5 11-78 II-4a 11-66 Ql-1908 1-5 11-78 II-5 a 11-66 Ql-1909 1-5 11-84 11-86 11-66 Ql-1910 1-5 11-84 11-92 11-66 Ql-1911 1-5 11-84 Ii-la 11-66 Ql-1912 1-5 11-84 II-2a 11-66 Ql-1913 1-5 11-84 II-3a 11-66 Ql-1914 1-5 11-84 II-4a 11-66 Ql-1915 1-5 11-84 II-5 a 11-66 Ql-1916 1-5 11-86 11-92 11-66 Ql-1917 1-5 11-86 Ii-la 11-66 Ql-1918 1-5 11-86 II-2a 11-66 Ql-1919 1-5 11-86 II-3a 11-66 Ql-1920 1-5 11-86 II-4a 11-66 Ql-1921 1-5 11-86 II-5 a 11-66 Ql-1922 1-5 11-92 Ii-la 11-66 Ql-1923 1-5 11-92 II-2a 11-66 Ql-1924 1-5 11-92 II-3a 11-66 Ql-1925 1-5 11-92 II-4a 11-66 Ql-1926 1-5 11-92 II-5 a 11-66 Ql-1927 1-5 Ii-la II-2a 11-66 Ql-1928 1-5 Ii-la II-3a 11-66 Ql-1929 1-5 Ii-la II-4a 11-66 Ql-1930 1-5 Ii-la II-5 a 11-66 Ql-1931 1-5 II-2a II-3a 11-66 Ql-1932 1-5 II-2a II-4a 11-66 Ql-1933 1-5 II-2a II-5 a 11-66 Ql-1934 1-5 II-3a II-4a 11-66 Ql-1935 1-5 II-3a II-5 a 11-66 Ql-1936 1-5 II-4a II-5 a 11-66

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Tab. Q1a: four-part compositions containing component I, a fungicide as component II and III, and a fungicidal component IV.

Table Q1a

composition I II III IV Qla-1 1-1 11-34 11-93 11-42 Qla-2 1-3 11-34 11-93 11-42 Qla-3 1-4 11-34 11-93 11-42 Qla-4 1-5 11-34 11-93 11-42

In tab. Q1 in accordance with particular embodiments of the invention, the corresponding component I is present as (S) enantiomer, in which each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, these are ternary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions individualized in this table represents embodiments of the present invention (S) enantiomer.

In tab. Q1, according to another specific embodiment of the invention, the corresponding component I is present in the form of (R) enantiomer, in which each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, these are ternary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions individualized in this table represents embodiments of the present invention (R) enantiomer.

One other aspect of the present invention is a new three-component compositions containing component II, component III and component IV, shown above in table. Q1, i.e. the compositions shown in the following table TQ1, since they are new.

Tab. TQ1: three-component compositions containing fungicidal component II, component III and IV. Each line of lines from TQ1-1 to TQ1-484 corresponds to one particular individualized composition. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

TQ1 table

compo II III IV position Tq1-1 II-3 II-6 11-42 TQ1-2 II-3 II-8 11-42 Tq1-3 II-3 II-11 11-42 TQ1-4 II-3 11-16 11-42 Tq1-5 II-3 11-21 11-42 Tq1-6 II-3 11-26 11-42 Tq1-7 II-3 11-32 11-42 Tq1-8 II-3 11-37 11-42 Tq1-9 II-3 11-39 11-42 Tq1-10 II-3 11-50 11-42 Tq1-11 II-3 11-62 11-42 Tq1-12 II-3 11-76 11-42 Tq1-13 II-3 11-78 11-42 TQ1-14 II-3 11-84 11-42

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Tq1-15 II-3 11-86 11-42 Tq1-16 II-3 11-92 11-42 Tq1-17 II-3 Ii-la 11-42 TQ1-18 II-3 II-2a 11-42 TQ1-19 II-3 II-3a 11-42 Tq1-20 II-3 II-4a 11-42 TQ1-21 II-3 II-5a 11-42 TQ1-22 II-6 II-8 11-42 TQ1-23 II-6 II-11 11-42 TQ1-24 II-6 11-16 11-42 TQ1-25 II-6 11-21 11-42 Tq1-26 II-6 11-26 11-42 TQ1-27 II-6 11-32 11-42 TQ1-28 II-6 11-37 11-42 TQ1-29 II-6 11-39 11-42 Tq1-30 II-6 11-50 11-42 Tq1-31 II-6 11-62 11-42 TQ1-32 II-6 11-76 11-42 TQ1-33 II-6 11-78 11-42 TQ1-34 II-6 11-84 11-42 TQ1-35 II-6 11-86 11-42 TQ1-36 II-6 11-92 11-42 TQ1-37 II-6 Ii-la 11-42 TQ1-38 II-6 II-2a 11-42 Tq1-39 II-6 II-3a 11-42 Tq1-40 II-6 II-4a 11-42 TQ1-41 II-6 II-5a 11-42 TQ1-42 II-8 II-11 11-42 TQ1-43 II-8 11-16 11-42 TQ1-44 II-8 11-21 11-42 TQ1-45 II-8 11-26 11-42 TQ1-46 II-8 11-32 11-42 TQ1-47 II-8 11-37 11-42 TQ1-48 II-8 11-39 11-42 TQ1-49 II-8 11-50 11-42 TQ1-50 II-8 11-62 11-42 TQ1-51 II-8 11-76 11-42 TQ1-52 II-8 11-78 11-42 TQ1-53 II-8 11-84 11-42 TQ1-54 II-8 11-86 11-42 TQ1-55 II-8 11-92 11-42 TQ1-56 II-8 Ii-la 11-42 TQ1-57 II-8 II-2a 11-42 TQ1-58 II-8 II-3a 11-42 TQ1-59 II-8 II-4a 11-42 TQ1-60 II-8 II-5a 11-42

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TQ1-61 II-11 11-16 11-42 TQ1-62 II-11 11-21 11-42 TQ1-63 II-11 11-26 11-42 TQ1-64 II-11 11-32 11-42 TQ1-65 II-11 11-37 11-42 TQ1-66 II-11 11-39 11-42 TQ1-67 II-11 11-50 11-42 TQ1-68 II-11 11-62 11-42 TQ1-69 II-11 11-76 11-42 TQ1-70 II-11 11-78 11-42 TQ1-71 II-11 11-84 11-42 TQ1-72 II-11 11-86 11-42 TQ1-73 II-11 11-92 11-42 TQ1-74 II-11 Ii-la 11-42 TQ1-75 II-11 II-2a 11-42 TQ1-76 II-11 II-3a 11-42 TQ1-77 II-11 II-4a 11-42 TQ1-78 II-11 II-5a 11-42 TQ1-79 11-16 11-21 11-42 TQ1-80 11-16 11-26 11-42 TQ1-81 11-16 11-32 11-42 TQ1-82 11-16 11-37 11-42 TQ1-83 11-16 11-39 11-42 TQ1-84 11-16 11-50 11-42 TQ1-85 11-16 11-62 11-42 TQ1-86 11-16 11-76 11-42 TQ1-87 11-16 11-78 11-42 TQ1-88 11-16 11-84 11-42 TQ1-89 11-16 11-86 11-42 TQ1-90 11-16 11-92 11-42 TQ1-91 11-16 Ii-la 11-42 TQ1-92 11-16 II-2a 11-42 TQ1-93 11-16 II-3a 11-42 TQ1-94 11-16 II-4a 11-42 TQ1-95 11-16 II-5a 11-42 TQ1-96 11-21 11-26 11-42 TQ1-97 11-21 11-32 11-42 TQ1-98 11-21 11-37 11-42 TQ1-99 11-21 11-39 11-42 TQ1-100 11-21 11-50 11-42 TQ1-101 11-21 11-62 11-42 TQ1-102 11-21 11-76 11-42 TQ1-103 11-21 11-78 11-42 TQ1-104 11-21 11-84 11-42 TQ1-105 11-21 11-86 11-42 TQ1-106 11-21 11-92 11-42

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TQ1-107 11-21 Ii-la 11-42 TQ1-108 11-21 II-2a 11-42 TQ1-109 11-21 II-3a 11-42 TQ1-110 11-21 II-4a 11-42 TQ1-111 11-21 II-5a 11-42 TQ1-112 11-26 11-32 11-42 TQ1-113 11-26 11-37 11-42 TQ1-114 11-26 11-39 11-42 TQ1-115 11-26 11-50 11-42 TQ1-116 11-26 11-62 11-42 TQ1-117 11-26 11-76 11-42 TQ1-118 11-26 11-78 11-42 TQ1-119 11-26 11-84 11-42 TQ1-120 11-26 11-86 11-42 TQ1-121 11-26 11-92 11-42 TQ1-122 11-26 Ii-la 11-42 TQ1-123 11-26 II-2a 11-42 TQ1-124 11-26 II-3a 11-42 TQ1-125 11-26 II-4a 11-42 TQ1-126 11-26 II-5a 11-42 TQ1-127 11-32 11-37 11-42 TQ1-128 11-32 11-39 11-42 TQ1-129 11-32 11-50 11-42 TQ1-130 11-32 11-62 11-42 TQ1-131 11-32 11-76 11-42 TQ1-132 11-32 11-78 11-42 TQ1-133 11-32 11-84 11-42 TQ1-134 11-32 11-86 11-42 TQ1-135 11-32 11-92 11-42 TQ1-136 11-32 Ii-la 11-42 TQ1-137 11-32 II-2a 11-42 TQ1-138 11-32 II-3a 11-42 TQ1-139 11-32 II-4a 11-42 TQ1-140 11-32 II-5a 11-42 TQ1-141 11-37 11-39 11-42 TQ1-142 11-37 11-50 11-42 TQ1-143 11-37 11-62 11-42 TQ1-144 11-37 11-76 11-42 TQ1-145 11-37 11-78 11-42 TQ1-146 11-37 11-84 11-42 TQ1-147 11-37 11-86 11-42 TQ1-148 11-37 11-92 11-42 TQ1-149 11-37 Ii-la 11-42 TQ1-150 11-37 II-2a 11-42 TQ1-151 11-37 II-3a 11-42 TQ1-152 11-37 II-4a 11-42

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TQ1-153 11-37 II-5a 11-42 TQ1-154 11-39 11-50 11-42 TQ1-155 11-39 11-62 11-42 TQ1-156 11-39 11-76 11-42 TQ1-157 11-39 11-78 11-42 TQ1-158 11-39 11-84 11-42 TQ1-159 11-39 11-86 11-42 TQ1-160 11-39 11-92 11-42 TQ1-161 11-39 Ii-la 11-42 TQ1-162 11-39 II-2a 11-42 TQ1-163 11-39 II-3a 11-42 TQ1-164 11-39 II-4a 11-42 TQ1-165 11-39 II-5a 11-42 TQ1-166 11-50 11-62 11-42 TQ1-167 11-50 11-76 11-42 TQ1-168 11-50 11-78 11-42 TQ1-169 11-50 11-84 11-42 TQ1-170 11-50 11-86 11-42 TQ1-171 11-50 11-92 11-42 TQ1-172 11-50 Ii-la 11-42 TQ1-173 11-50 II-2a 11-42 TQ1-174 11-50 II-3a 11-42 TQ1-175 11-50 II-4a 11-42 TQ1-176 11-50 II-5a 11-42 TQ1-177 11-62 11-76 11-42 TQ1-178 11-62 11-78 11-42 TQ1-179 11-62 11-84 11-42 TQ1-180 11-62 11-86 11-42 TQ1-181 11-62 11-92 11-42 TQ1-182 11-62 Ii-la 11-42 TQ1-183 11-62 II-2a 11-42 TQ1-184 11-62 II-3a 11-42 TQ1-185 11-62 II-4a 11-42 TQ1-186 11-62 II-5a 11-42 TQ1-187 11-76 11-78 11-42 TQ1-188 11-76 11-84 11-42 TQ1-189 11-76 11-86 11-42 TQ1-190 11-76 11-92 11-42 TQ1-191 11-76 Ii-la 11-42 TQ1-192 11-76 II-2a 11-42 TQ1-193 11-76 II-3a 11-42 TQ1-194 11-76 II-4a 11-42 TQ1-195 11-76 II-5a 11-42 TQ1-196 11-78 11-84 11-42 TQ1-197 11-78 11-86 11-42 TQ1-198 11-78 11-92 11-42

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TQ1-199 11-78 Ii-la 11-42 TQ1-200 11-78 II-2a 11-42 TQ1-201 11-78 II-3a 11-42 TQ1-202 11-78 II-4a 11-42 TQ1-203 11-78 II-5a 11-42 TQ1-204 11-84 11-86 11-42 TQ1-205 11-84 11-92 11-42 TQ1-206 11-84 Ii-la 11-42 TQ1-207 11-84 II-2a 11-42 TQ1-208 11-84 II-3a 11-42 TQ1-209 11-84 II-4a 11-42 TQ1-210 11-84 II-5a 11-42 TQ1-211 11-86 11-92 11-42 TQ1-212 11-86 Ii-la 11-42 TQ1-213 11-86 II-2a 11-42 TQ1-214 11-86 II-3a 11-42 TQ1-215 11-86 II-4a 11-42 TQ1-216 11-86 II-5a 11-42 TQ1-217 11-92 Ii-la 11-42 TQ1-218 11-92 II-2a 11-42 TQ1-219 11-92 II-3a 11-42 TQ1-220 11-92 II-4a 11-42 TQ1-221 11-92 II-5a 11-42 TQ1-222 Ii-la II-2a 11-42 TQ1-223 Ii-la II-3a 11-42 TQ1-224 Ii-la II-4a 11-42 TQ1-225 Ii-la II-5a 11-42 TQ1-226 II-2a II-3a 11-42 TQ1-227 II-2a II-4a 11-42 TQ1-228 II-2a II-5a 11-42 TQ1-229 II-3a II-4a 11-42 TQ1-230 II-3a II-5a 11-42 TQ1-231 II-4a II-5a 11-42 TQ1-232 II-3 II-6 11-66 TQ1-233 II-3 II-8 11-66 TQ1-234 II-3 II-11 11-66 TQ1-235 II-3 11-16 11-66 TQ1-236 II-3 11-21 11-66 TQ1-237 II-3 11-26 11-66 TQ1-238 II-3 11-32 11-66 TQ1-239 II-3 11-37 11-66 TQ1-240 II-3 11-39 11-66 TQ1-241 II-3 11-42 11-66 TQ1-242 II-3 11-50 11-66 TQ1-243 II-3 11-62 11-66 TQ1-244 II-3 11-76 11-66

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TQ1-245 II-3 11-78 11-66 TQ1-246 II-3 11-84 11-66 TQ1-247 II-3 11-86 11-66 TQ1-248 II-3 11-92 11-66 TQ1-249 II-3 Ii-la 11-66 TQ1-250 II-3 II-2a 11-66 TQ1-251 II-3 II-3a 11-66 TQ1-252 II-3 II-4a 11-66 TQ1-253 II-3 II-5a 11-66 TQ1-254 II-6 II-8 11-66 TQ1-255 II-6 II-11 11-66 TQ1-256 II-6 11-16 11-66 TQ1-257 II-6 11-21 11-66 TQ1-258 II-6 11-26 11-66 TQ1-259 II-6 11-32 11-66 TQ1-260 II-6 11-37 11-66 TQ1-261 II-6 11-39 11-66 TQ1-262 II-6 11-42 11-66 TQ1-263 II-6 11-50 11-66 TQ1-264 II-6 11-62 11-66 TQ1-265 II-6 11-76 11-66 TQ1-266 II-6 11-78 11-66 TQ1-267 II-6 11-84 11-66 TQ1-268 II-6 11-86 11-66 TQ1-269 II-6 11-92 11-66 TQ1-270 II-6 Ii-la 11-66 TQ1-271 II-6 II-2a 11-66 TQ1-272 II-6 II-3a 11-66 TQ1-273 II-6 II-4a 11-66 TQ1-274 II-6 II-5a 11-66 TQ1-275 II-8 II-11 11-66 TQ1-276 II-8 11-16 11-66 TQ1-277 II-8 11-21 11-66 TQ1-278 II-8 11-26 11-66 TQ1-279 II-8 11-32 11-66 TQ1-280 II-8 11-37 11-66 TQ1-281 II-8 11-39 11-66 TQ1-282 II-8 11-42 11-66 TQ1-283 II-8 11-50 11-66 TQ1-284 II-8 11-62 11-66 TQ1-285 II-8 11-76 11-66 TQ1-286 II-8 11-78 11-66 TQ1-287 II-8 11-84 11-66 TQ1-288 II-8 11-86 11-66 TQ1-289 II-8 11-92 11-66 TQ1-290 II-8 Ii-la 11-66

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TQ1-291 II-8 II-2a 11-66 TQ1-292 II-8 II-3a 11-66 TQ1-293 II-8 II-4a 11-66 TQ1-294 II-8 II-5a 11-66 TQ1-295 II-11 11-16 11-66 TQ1-296 II-11 11-21 11-66 TQ1-297 II-11 11-26 11-66 TQ1-298 II-11 11-32 11-66 TQ1-299 II-11 11-37 11-66 TQ1-300 II-11 11-39 11-66 TQ1-301 II-11 11-42 11-66 TQ1-302 II-11 11-50 11-66 Tq1-303 II-11 11-62 11-66 TQ1-304 II-11 11-76 11-66 TQ1-305 II-11 11-78 11-66 TQ1-306 II-11 11-84 11-66 Tq1-307 II-11 11-86 11-66 TQ1-308 II-11 11-92 11-66 TQ1-309 II-11 Ii-la 11-66 TQ1-310 II-11 II-2a 11-66 TQ1-311 II-11 II-3a 11-66 TQ1-312 II-11 II-4a 11-66 TQ1-313 II-11 II-5a 11-66 TQ1-314 11-16 11-21 11-66 TQ1-315 11-16 11-26 11-66 TQ1-316 11-16 11-32 11-66 TQ1-317 11-16 11-37 11-66 TQ1-318 11-16 11-39 11-66 TQ1-319 11-16 11-42 11-66 TQ1-320 11-16 11-50 11-66 TQ1-321 11-16 11-62 11-66 TQ1-322 11-16 11-76 11-66 TQ1-323 11-16 11-78 11-66 TQ1-324 11-16 11-84 11-66 TQ1-325 11-16 11-86 11-66 TQ1-326 11-16 11-92 11-66 TQ1-327 11-16 Ii-la 11-66 TQ1-328 11-16 II-2a 11-66 TQ1-329 11-16 II-3a 11-66 TQ1-330 11-16 II-4a 11-66 TQ1-331 11-16 II-5a 11-66 TQ1-332 11-21 11-26 11-66 TQ1-333 11-21 11-32 11-66 TQ1-334 11-21 11-37 11-66 TQ1-335 11-21 11-39 11-66 TQ1-336 11-21 11-42 11-66

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TQl-337 11-21 11-50 11-66 TQ1-338 11-21 11-62 11-66 TQ1-339 11-21 11-76 11-66 TQ1-340 11-21 11-78 11-66 TQ1-341 11-21 11-84 11-66 TQ1-342 11-21 11-86 11-66 TQ1-343 11-21 11-92 11-66 TQ1-344 11-21 Ii-la 11-66 TQ1-345 11-21 II-2a 11-66 TQ1-346 11-21 II-3a 11-66 TQ1-347 11-21 II-4a 11-66 TQ1-348 11-21 II-5a 11-66 TQ1-349 11-26 11-32 11-66 TQ1-350 11-26 11-37 11-66 TQ1-351 11-26 11-39 11-66 TQ1-352 11-26 11-42 11-66 TQ1-353 11-26 11-50 11-66 TQ1-354 11-26 11-62 11-66 TQ1-355 11-26 11-76 11-66 TQ1-356 11-26 11-78 11-66 TQ1-357 11-26 11-84 11-66 TQ1-358 11-26 11-86 11-66 TQ1-359 11-26 11-92 11-66 TQ1-360 11-26 Ii-la 11-66 TQ1-361 11-26 II-2a 11-66 TQ1-362 11-26 II-3a 11-66 TQ1-363 11-26 II-4a 11-66 TQ1-364 11-26 II-5a 11-66 TQ1-365 11-32 11-37 11-66 TQ1-366 11-32 11-39 11-66 TQ1-367 11-32 11-42 11-66 TQ1-368 11-32 11-50 11-66 TQ1-369 11-32 11-62 11-66 TQ1-370 11-32 11-76 11-66 TQ1-371 11-32 11-78 11-66 TQ1-372 11-32 11-84 11-66 TQ1-373 11-32 11-86 11-66 TQ1-374 11-32 11-92 11-66 TQ1-375 11-32 Ii-la 11-66 TQ1-376 11-32 II-2a 11-66 TQ1-377 11-32 II-3a 11-66 TQ1-378 11-32 II-4a 11-66 TQ1-379 11-32 II-5a 11-66 TQ1-380 11-37 11-39 11-66 TQ1-381 11-37 11-42 11-66 TQ1-382 11-37 11-50 11-66

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TQl-383 11-37 11-62 11-66 TQ1-384 11-37 11-76 11-66 TQ1-385 11-37 11-78 11-66 TQ1-386 11-37 11-84 11-66 TQ1-387 11-37 11-86 11-66 TQ1-388 11-37 11-92 11-66 TQ1-389 11-37 Ii-la 11-66 TQ1-390 11-37 II-2a 11-66 TQ1-391 11-37 II-3a 11-66 TQ1-392 11-37 II-4a 11-66 TQ1-393 11-37 II-5a 11-66 TQ1-394 11-39 11-42 11-66 TQ1-395 11-39 11-50 11-66 TQ1-396 11-39 11-62 11-66 TQ1-397 11-39 11-76 11-66 TQ1-398 11-39 11-78 11-66 TQ1-399 11-39 11-84 11-66 TQ1-400 11-39 11-86 11-66 TQ1-401 11-39 11-92 11-66 TQ1-402 11-39 Ii-la 11-66 Tq1-403 11-39 II-2a 11-66 TQ1-404 11-39 II-3a 11-66 TQ1-405 11-39 II-4a 11-66 TQ1-406 11-39 II-5a 11-66 Tq1-407 11-42 11-50 11-66 TQ1-408 11-42 11-62 11-66 TQ1-409 11-42 11-76 11-66 TQ1-410 11-42 11-78 11-66 TQ1-411 11-42 11-84 11-66 TQ1-412 11-42 11-86 11-66 TQ1-413 11-42 11-92 11-66 TQ1-414 11-42 Ii-la 11-66 TQ1-415 11-42 II-2a 11-66 TQ1-416 11-42 II-3a 11-66 TQ1-417 11-42 II-4a 11-66 TQ1-418 11-42 II-5a 11-66 TQ1-419 11-50 11-62 11-66 TQ1-420 11-50 11-76 11-66 TQ1-421 11-50 11-78 11-66 TQ1-422 11-50 11-84 11-66 TQ1-423 11-50 11-86 11-66 TQ1-424 11-50 11-92 11-66 TQ1-425 11-50 Ii-la 11-66 TQ1-426 11-50 II-2a 11-66 TQ1-427 11-50 II-3a 11-66 TQ1-428 11-50 II-4a 11-66

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TQ1-429 P-50 P-5a P-66 TQ1-430 P-62 P-76 P-66 TQ1-431 P-62 P-78 P-66 TQ1-432 P-62 P-84 P-66 TQ1-433 P-62 P-86 P-66 TQ1-434 P-62 P-92 P-66 TQ1-435 P-62 II-1a P-66 TQ1-436 P-62 P-2a P-66 TQ1-437 P-62 Pz P-66 TQ1-438 P-62 P-4a P-66 TQ1-439 P-62 P-5a P-66 TQ1-440 P-76 P-78 P-66 TQ1-441 P-76 P-84 P-66 TQ1-442 P-76 P-86 P-66 TQ1-443 P-76 P-92 P-66 TQ1-444 P-76 II-1a P-66 TQ1-445 P-76 P-2a P-66 TQ1-446 P-76 Pz P-66 TQ1-447 P-76 P-4a P-66 TQ1-448 P-76 P-5a P-66 TQ1-449 P-78 P-84 P-66 TQ1-450 P-78 P-86 P-66 TQ1-451 P-78 P-92 P-66 TQ1-452 P-78 II-1a P-66 TQ1-453 P-78 P-2a P-66 TQ1-454 P-78 Pz P-66 TQ1-455 P-78 P-4a P-66 TQ1-456 P-78 P-5a P-66 TQ1-457 P-84 P-86 P-66 TQ1-458 P-84 P-92 P-66 TQ1-459 P-84 II-1a P-66 TQ1-460 P-84 P-2a P-66 TQ1-461 P-84 Pz P-66 TQ1-462 P-84 P-4a P-66 TQ1-463 P-84 P-5a P-66 TQ1-464 P-86 P-92 P-66 TQ1-465 P-86 II-1a P-66 TQ1-466 P-86 P-2a P-66 TQ1-467 P-86 Pz P-66 TQ1-468 P-86 P-4a P-66 TQ1-469 P-86 P-5a P-66 TQ1-470 P-92 II-1a P-66 TQ1-471 P-92 P-2a P-66 TQ1-472 P-92 Pz P-66 TQ1-473 P-92 P-4a P-66 TQ1-474 P-92 P-5a P-66 TQ1-475 II-1a P-2a P-66 TQ1-476 II-1a Pz P-66 TQ1-477 II-1a P-4a P-66 TQ1-478 II-1a P-5a P-66 TQ1-479 P-2a Pz P-66 TQ1-480 P-2a P-4a P-66 TQ1-481 P-2a P-5a P-66 TQ1-482 Pz P-4a P-66 TQ1-483 Pz P-5a P-66 TQ1-484 P-4a P-5a P-66

Other, particularly preferred compositions are four-part compositions, wherein component I is as defined above, i.e. Compound I, in particular a compound selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described in detail above, and components II, III and IV are selected from the following fungicides:

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P-6 Bixafen

II-11 chlorothalonil

P-15 cyproconazole

P-26 epoxyconazole

P-32 fenpropimorph

P-62 metrafenone

P-76 propiconazole

P-78 Prothioconazole

P-84 spiroxamine

P-86 tebuconazole while the components II, III and IV are different active compounds.

Particularly preferred embodiments of these compositions are given in table. Q2, where each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized four-part composition. According to one particular aspect, they are four-part compositions, each of which contains only these four components as an active compound. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. Q2: Quadruple compositions containing component I and fungicidal compounds as components II, III and IV.

Table Q2

composition I II III IV Q2-1 1-1 P-6 II II-15 Q2-2 1-1 P-6 II P-26 Q2-3 1-1 P-6 II P-32 Q2-4 1-1 P-6 II P-62 Q2-5 1-1 P-6 II P-76 Q2-6 1-1 P-6 II P-78 Q2-7 1-1 P-6 II P-84 Q2-8 1-1 P-6 II P-86 Q2-9 1-1 P-6 II-15 P-26 Q2-10 1-1 P-6 II-15 P-32 Q2-11 1-1 P-6 II-15 P-62 Q2-12 1-1 P-6 II-15 P-76 Q2-13 1-1 P-6 II-15 P-78 Q2-14 1-1 P-6 II-15 P-84 Q2-15 1-1 P-6 II-15 P-86 Q2-16 1-1 P-6 P-26 P-32 Q2-17 1-1 P-6 P-26 P-62 Q2-18 1-1 P-6 P-26 P-76 Q2-19 1-1 P-6 P-26 P-78 Q2-20 1-1 P-6 P-26 P-84 Q2-21 1-1 P-6 P-26 P-86 Q2-22 1-1 P-6 P-32 P-62 Q2-23 1-1 P-6 P-32 P-76 Q2-24 1-1 P-6 P-32 P-78 Q2-25 1-1 P-6 P-32 P-84 Q2-26 1-1 P-6 P-32 P-86 Q2-27 1-1 P-6 P-62 P-76 Q2-28 1-1 P-6 P-62 P-78 Q2-29 1-1 P-6 P-62 P-84 Q2-30 1-1 P-6 P-62 P-86 Q2-31 1-1 P-6 P-76 P-78 Q2-32 1-1 P-6 P-76 P-84 Q2-33 1-1 P-6 P-76 P-86 Q2-34 1-1 P-6 P-78 P-84 Q2-35 1-1 P-6 P-78 P-86 Q2-36 1-1 P-6 P-84 P-86 Q2-37 1-1 II II-15 P-26 Q2-38 1-1 II II-15 P-32 Q2-39 1-1 II II-15 P-62 Q2-40 1-1 II II-15 P-76 Q2-41 1-1 II II-15 P-78 Q2-42 1-1 II II-15 P-84

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Q2-43 1-1 II-11 11-15 11-86 Q2-44 1-1 II-11 11-26 11-32 Q2-45 1-1 II-11 11-26 11-62 Q2-46 1-1 II-11 11-26 11-76 Q2-47 1-1 II-11 11-26 11-78 Q2-48 1-1 II-11 11-26 11-84 Q2-49 1-1 II-11 11-26 11-86 Q2-50 1-1 II-11 11-32 11-62 Q2-51 1-1 II-11 11-32 11-76 Q2-52 1-1 II-11 11-32 11-78 Q2-53 1-1 II-11 11-32 11-84 Q2-54 1-1 II-11 11-32 11-86 Q2-55 1-1 II-11 11-62 11-76 Q2-56 1-1 II-11 11-62 11-78 Q2-57 1-1 II-11 11-62 11-84 Q2-58 1-1 II-11 11-62 11-86 Q2-59 1-1 II-11 11-76 11-78 Q2-60 1-1 II-11 11-76 11-84 Q2-61 1-1 II-11 11-76 11-86 Q2-62 1-1 II-11 11-78 11-84 Q2-63 1-1 II-11 11-78 11-86 Q2-64 1-1 II-11 11-84 11-86 Q2-65 1-1 11-15 11-26 11-32 Q2-66 1-1 11-15 11-26 11-62 Q2-67 1-1 11-15 11-26 11-76 Q2-68 1-1 11-15 11-26 11-78 Q2-69 1-1 11-15 11-26 11-84 Q2-70 1-1 11-15 11-26 11-86 Q2-71 1-1 11-15 11-32 11-62 Q2-72 1-1 11-15 11-32 11-76 Q2-73 1-1 11-15 11-32 11-78 Q2-74 1-1 11-15 11-32 11-84 Q2-75 1-1 11-15 11-32 11-86 Q2-76 1-1 11-15 11-62 11-76 Q2-77 1-1 11-15 11-62 11-78 Q2-78 1-1 11-15 11-62 11-84 Q2-79 1-1 11-15 11-62 11-86 Q2-80 1-1 11-15 11-76 11-78 Q2-81 1-1 11-15 11-76 11-84 Q2-82 1-1 11-15 11-76 11-86 Q2-83 1-1 11-15 11-78 11-84 Q2-84 1-1 11-15 11-78 11-86

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Q2-85 1-1 11-15 11-84 11-86 Q2-86 1-1 11-26 11-32 11-62 Q2-87 1-1 11-26 11-32 11-76 Q2-88 1-1 11-26 11-32 11-78 Q2-89 1-1 11-26 11-32 11-84 Q2-90 1-1 11-26 11-32 11-86 Q2-91 1-1 11-26 11-62 11-76 Q2-92 1-1 11-26 11-62 11-78 Q2-93 1-1 11-26 11-62 11-84 Q2-94 1-1 11-26 11-62 11-86 Q2-95 1-1 11-26 11-76 11-78 Q2-96 1-1 11-26 11-76 11-84 Q2-97 1-1 11-26 11-76 11-86 Q2-98 1-1 11-26 11-78 11-84 Q2-99 1-1 11-26 11-78 11-86 Q2-100 1-1 11-26 11-84 11-86 Q2-101 1-1 11-32 11-62 11-76 Q2-102 1-1 11-32 11-62 11-78 Q2-103 1-1 11-32 11-62 11-84 Q2-104 1-1 11-32 11-62 11-86 Q2-105 1-1 11-32 11-76 11-78 Q2-106 1-1 11-32 11-76 11-84 Q2-107 1-1 11-32 11-76 11-86 Q2-108 1-1 11-32 11-78 11-84 Q2-109 1-1 11-32 11-78 11-86 Q2-110 1-1 11-32 11-84 11-86 Q2-111 1-1 11-62 11-76 11-78 Q2-112 1-1 11-62 11-76 11-84 Q2-113 1-1 11-62 11-76 11-86 Q2-114 1-1 11-62 11-78 11-84 Q2-115 1-1 11-62 11-78 11-86 Q2-116 1-1 11-62 11-84 11-86 Q2-117 1-1 11-76 11-78 11-84 Q2-118 1-1 11-76 11-78 11-86 Q2-119 1-1 11-76 11-84 11-86 Q2-120 1-1 11-78 11-84 11-86 Q2-121 1-5 II-6 II-11 11-15 Q2-122 1-5 II-6 II-11 11-26 Q2-123 1-5 II-6 II-11 11-32 Q2-124 1-5 II-6 II-11 11-62 Q2-125 1-5 II-6 II-11 11-76 Q2-126 1-5 II-6 II-11 11-78 Q2-127 1-5 II-6 II-11 11-84 Q2-128 1-5 II-6 II-11 11-86 Q2-129 1-5 II-6 11-15 11-26 Q2-130 1-5 II-6 11-15 11-32

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Q2-131 1-5 P-6 II-15 P-62 Q2-132 1-5 P-6 II-15 P-76 Q2-133 1-5 P-6 II-15 P-78 Q2-134 1-5 P-6 II-15 P-84 Q2-135 1-5 P-6 II-15 P-86 Q2-136 1-5 P-6 P-26 P-32 Q2-137 1-5 P-6 P-26 P-62 Q2-138 1-5 P-6 P-26 P-76 Q2-139 1-5 P-6 P-26 P-78 Q2-140 1-5 P-6 P-26 P-84 Q2-141 1-5 P-6 P-26 P-86 Q2-142 1-5 P-6 P-32 P-62 Q2-143 1-5 P-6 P-32 P-76 Q2-144 1-5 P-6 P-32 P-78 Q2-145 1-5 P-6 P-32 P-84 Q2-146 1-5 P-6 P-32 P-86 Q2-147 1-5 P-6 P-62 P-76 Q2-148 1-5 P-6 P-62 P-78 Q2-149 1-5 P-6 P-62 P-84 Q2-150 1-5 P-6 P-62 P-86 Q2-151 1-5 P-6 P-76 P-78 Q2-152 1-5 P-6 P-76 P-84 Q2-153 1-5 P-6 P-76 P-86 Q2-154 1-5 P-6 P-78 P-84 Q2-155 1-5 P-6 P-78 P-86 Q2-156 1-5 P-6 P-84 P-86 Q2-157 1-5 II II-15 P-26 Q2-158 1-5 II II-15 P-32 Q2-159 1-5 II II-15 P-62 Q2-160 1-5 II II-15 P-76 Q2-161 1-5 II II-15 P-78 Q2-162 1-5 II II-15 P-84 Q2-163 1-5 II II-15 P-86 Q2-164 1-5 II P-26 P-32 Q2-165 1-5 II P-26 P-62 Q2-166 1-5 II P-26 P-76 Q2-167 1-5 II P-26 P-78 Q2-168 1-5 II P-26 P-84 Q2-169 1-5 II P-26 P-86 Q2-170 1-5 II P-32 P-62 Q2-171 1-5 II P-32 P-76 Q2-172 1-5 II P-32 P-78 Q2-173 1-5 II P-32 P-84 Q2-174 1-5 II P-32 P-86 Q2-175 1-5 II P-62 P-76 Q2-176 1-5 II P-62 P-78

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Q2-177 1-5 II-I P-62 P-84 Q2-178 1-5 II-I P-62 P-86 Q2-179 1-5 II-I P-76 P-78 Q2-180 1-5 II-I P-76 P-84 Q2-181 1-5 II-I P-76 P-86 Q2-182 1-5 II-I P-78 P-84 Q2-183 1-5 II-I P-78 P-86 Q2-184 1-5 II-I P-84 P-86 Q2-185 1-5 II-15 P-26 P-32 Q2-186 1-5 II-15 P-26 P-62 Q2-187 1-5 II-15 P-26 P-76 Q2-188 1-5 II-15 P-26 P-78 Q2-189 1-5 II-15 P-26 P-84 Q2-190 1-5 II-15 P-26 P-86 Q2-191 1-5 II-15 P-32 P-62 Q2-192 1-5 II-15 P-32 P-76 Q2-193 1-5 II-15 P-32 P-78 Q2-194 1-5 II-15 P-32 P-84 Q2-195 1-5 II-15 P-32 P-86 Q2-196 1-5 II-15 P-62 P-76 Q2-197 1-5 II-15 P-62 P-78 Q2-198 1-5 II-15 P-62 P-84 Q2-199 1-5 II-15 P-62 P-86 Q2-200 1-5 II-15 P-76 P-78 Q2-201 1-5 II-15 P-76 P-84 Q2-202 1-5 II-15 P-76 P-86 Q2-203 1-5 II-15 P-78 P-84 Q2-204 1-5 II-15 P-78 P-86 Q2-205 1-5 II-15 P-84 P-86 Q2-206 1-5 P-26 P-32 P-62 Q2-207 1-5 P-26 P-32 P-76 Q2-208 1-5 P-26 P-32 P-78 Q2-209 1-5 P-26 P-32 P-84 Q2-210 1-5 P-26 P-32 P-86 Q2-211 1-5 P-26 P-62 P-76 Q2-212 1-5 P-26 P-62 P-78 Q2-213 1-5 P-26 P-62 P-84 Q2-214 1-5 P-26 P-62 P-86 Q2-215 1-5 P-26 P-76 P-78 Q2-216 1-5 P-26 P-76 P-84 Q2-217 1-5 P-26 P-76 P-86 Q2-218 1-5 P-26 P-78 P-84 Q2-219 1-5 P-26 P-78 P-86 Q2-220 1-5 P-26 P-84 P-86 Q2-221 1-5 P-32 P-62 P-76 Q2-222 1-5 P-32 P-62 P-78

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Q2-223 1-5 P-32 P-62 P-84 Q2-224 1-5 P-32 P-62 P-86 Q2-225 1-5 P-32 P-76 P-78 Q2-226 1-5 P-32 P-76 P-84 Q2-227 1-5 P-32 P-76 P-86 Q2-228 1-5 P-32 P-78 P-84 Q2-229 1-5 P-32 P-78 P-86 Q2-230 1-5 P-32 P-84 P-86 Q2-231 1-5 P-62 P-76 P-78 Q2-232 1-5 P-62 P-76 P-84 Q2-233 1-5 P-62 P-76 P-86 Q2-234 1-5 P-62 P-78 P-84 Q2-235 1-5 P-62 P-78 P-86 Q2-236 1-5 P-62 P-84 P-86 Q2-237 1-5 P-76 P-78 P-84 Q2-238 1-5 P-76 P-78 P-86 Q2-239 1-5 P-76 P-84 P-86 Q2-240 1-5 P-78 P-84 P-86 Q2-241 1-3 P-6 II-I II-15 Q2-242 1-3 P-6 II-I P-26 Q2-243 1-3 P-6 II-I P-32 Q2-244 1-3 P-6 II-I P-62 Q2-245 1-3 P-6 II-I P-76 Q2-246 1-3 P-6 II-I P-78 Q2-247 1-3 P-6 II-I P-84 Q2-248 1-3 P-6 II-I P-86 Q2-249 1-3 P-6 II-15 P-26 Q2-250 1-3 P-6 II-15 P-32 Q2-251 1-3 P-6 II-15 P-62 Q2-252 1-3 P-6 II-15 P-76 Q2-253 1-3 P-6 II-15 P-78 Q2-254 1-3 P-6 II-15 P-84 Q2-255 1-3 P-6 II-15 P-86 Q2-256 1-3 P-6 P-26 P-32 Q2-257 1-3 P-6 P-26 P-62 Q2-258 1-3 P-6 P-26 P-76 Q2-259 1-3 P-6 P-26 P-78 Q2-260 1-3 P-6 P-26 P-84 Q2-261 1-3 P-6 P-26 P-86 Q2-262 1-3 P-6 P-32 P-62 Q2-263 1-3 P-6 P-32 P-76 Q2-264 1-3 P-6 P-32 P-78 Q2-265 1-3 P-6 P-32 P-84 Q2-266 1-3 P-6 P-32 P-86 Q2-267 1-3 P-6 P-62 P-76 Q2-268 1-3 P-6 P-62 P-78

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Q2-269 1-3 P-6 P-62 P-84 Q2-270 1-3 P-6 P-62 P-86 Q2-271 1-3 P-6 P-76 P-78 Q2-272 1-3 P-6 P-76 P-84 Q2-273 1-3 P-6 P-76 P-86 Q2-274 1-3 P-6 P-78 P-84 Q2-275 1-3 P-6 P-78 P-86 Q2-276 1-3 P-6 P-84 P-86 Q2-277 1-3 II II-15 P-26 Q2-278 1-3 II II-15 P-32 Q2-279 1-3 II II-15 P-62 Q2-280 1-3 II II-15 P-76 Q2-281 1-3 II II-15 P-78 Q2-282 1-3 II II-15 P-84 Q2-283 1-3 II II-15 P-86 Q2-284 1-3 II P-26 P-32 Q2-285 1-3 II P-26 P-62 Q2-286 1-3 II P-26 P-76 Q2-287 1-3 II P-26 P-78 Q2-288 1-3 II P-26 P-84 Q2-289 1-3 II P-26 P-86 Q2-290 1-3 II P-32 P-62 Q2-291 1-3 II P-32 P-76 Q2-292 1-3 II P-32 P-78 Q2-293 1-3 II P-32 P-84 Q2-294 1-3 II P-32 P-86 Q2-295 1-3 II P-62 P-76 Q2-296 1-3 II P-62 P-78 Q2-297 1-3 II P-62 P-84 Q2-298 1-3 II P-62 P-86 Q2-299 1-3 II P-76 P-78 Q2-300 1-3 II P-76 P-84 Q2-301 1-3 II P-76 P-86 Q2-302 1-3 II P-78 P-84 Q2-303 1-3 II P-78 P-86 Q2-304 1-3 II P-84 P-86 Q2-305 1-3 II-15 P-26 P-32 Q2-306 1-3 II-15 P-26 P-62 Q2-307 1-3 II-15 P-26 P-76 Q2-308 1-3 II-15 P-26 P-78 Q2-309 1-3 II-15 P-26 P-84 Q2-310 1-3 II-15 P-26 P-86 Q2-311 1-3 II-15 P-32 P-62 Q2-312 1-3 II-15 P-32 P-76 Q2-313 1-3 II-15 P-32 P-78 Q2-314 1-3 II-15 P-32 P-84

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Q2-315 1-3 II-15 P-32 P-86 Q2-316 1-3 II-15 P-62 P-76 Q2-317 1-3 II-15 P-62 P-78 Q2-318 1-3 II-15 P-62 P-84 Q2-319 1-3 II-15 P-62 P-86 Q2-320 1-3 II-15 P-76 P-78 Q2-321 1-3 II-15 P-76 P-84 Q2-322 1-3 II-15 P-76 P-86 Q2-323 1-3 II-15 P-78 P-84 Q2-324 1-3 II-15 P-78 P-86 Q2-325 1-3 II-15 P-84 P-86 Q2-326 1-3 P-26 P-32 P-62 Q2-327 1-3 P-26 P-32 P-76 Q2-328 1-3 P-26 P-32 P-78 Q2-329 1-3 P-26 P-32 P-84 Q2-330 1-3 P-26 P-32 P-86 Q2-331 1-3 P-26 P-62 P-76 Q2-332 1-3 P-26 P-62 P-78 Q2-333 1-3 P-26 P-62 P-84 Q2-334 1-3 P-26 P-62 P-86 Q2-335 1-3 P-26 P-76 P-78 Q2-336 1-3 P-26 P-76 P-84 Q2-337 1-3 P-26 P-76 P-86 Q2-338 1-3 P-26 P-78 P-84 Q2-339 1-3 P-26 P-78 P-86 Q2-340 1-3 P-26 P-84 P-86 Q2-341 1-3 P-32 P-62 P-76 Q2-342 1-3 P-32 P-62 P-78 Q2-343 1-3 P-32 P-62 P-84 Q2-344 1-3 P-32 P-62 P-86 Q2-345 1-3 P-32 P-76 P-78 Q2-346 1-3 P-32 P-76 P-84 Q2-347 1-3 P-32 P-76 P-86 Q2-348 1-3 P-32 P-78 P-84 Q2-349 1-3 P-32 P-78 P-86 Q2-350 1-3 P-32 P-84 P-86 Q2-351 1-3 P-62 P-76 P-78 Q2-352 1-3 P-62 P-76 P-84 Q2-353 1-3 P-62 P-76 P-86 Q2-354 1-3 P-62 P-78 P-84 Q2-355 1-3 P-62 P-78 P-86 Q2-356 1-3 P-62 P-84 P-86 Q2-357 1-3 P-76 P-78 P-84 Q2-358 1-3 P-76 P-78 P-86 Q2-359 1-3 P-76 P-84 P-86 Q2-360 1-3 P-78 P-84 P-86

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Q2-361 1-4 P-6 II II-15 Q2-362 1-4 P-6 II P-26 Q2-363 1-4 P-6 II P-32 Q2-364 1-4 P-6 II P-62 Q2-365 1-4 P-6 II P-76 Q2-366 1-4 P-6 II P-78 Q2-367 1-4 P-6 II P-84 Q2-368 1-4 P-6 II P-86 Q2-369 1-4 P-6 II-15 P-26 Q2-370 1-4 P-6 II-15 P-32 Q2-371 1-4 P-6 II-15 P-62 Q2-372 1-4 P-6 II-15 P-76 Q2-373 1-4 P-6 II-15 P-78 Q2-374 1-4 P-6 II-15 P-84 Q2-375 1-4 P-6 II-15 P-86 Q2-376 1-4 P-6 P-26 P-32 Q2-377 1-4 P-6 P-26 P-62 Q2-378 1-4 P-6 P-26 P-76 Q2-379 1-4 P-6 P-26 P-78 Q2-380 1-4 P-6 P-26 P-84 Q2-381 1-4 P-6 P-26 P-86 Q2-382 1-4 P-6 P-32 P-62 Q2-383 1-4 P-6 P-32 P-76 Q2-384 1-4 P-6 P-32 P-78 Q2-385 1-4 P-6 P-32 P-84 Q2-386 1-4 P-6 P-32 P-86 Q2-387 1-4 P-6 P-62 P-76 Q2-388 1-4 P-6 P-62 P-78 Q2-389 1-4 P-6 P-62 P-84 Q2-390 1-4 P-6 P-62 P-86 Q2-391 1-4 P-6 P-76 P-78 Q2-392 1-4 P-6 P-76 P-84 Q2-393 1-4 P-6 P-76 P-86 Q2-394 1-4 P-6 P-78 P-84 Q2-395 1-4 P-6 P-78 P-86 Q2-396 1-4 P-6 P-84 P-86 Q2-397 1-4 II II-15 P-26 Q2-398 1-4 II II-15 P-32 Q2-399 1-4 II II-15 P-62 Q2-400 1-4 II II-15 P-76 Q2-401 1-4 II II-15 P-78 Q2-402 1-4 II II-15 P-84 Q2-403 1-4 II II-15 P-86 Q2-404 1-4 II P-26 P-32 Q2-405 1-4 II P-26 P-62 Q2-406 1-4 II P-26 P-76

- 301 030875

Q2-407 1-4 II-I P-26 P-78 Q2-408 1-4 II-I P-26 P-84 Q2-409 1-4 II-I P-26 P-86 Q2-410 1-4 II-I P-32 P-62 Q2-411 1-4 II-I P-32 P-76 Q2-412 1-4 II-I P-32 P-78 Q2-413 1-4 II-I P-32 P-84 Q2-414 1-4 II-I P-32 P-86 Q2-415 1-4 II P-62 P-76 Q2-416 1-4 II P-62 P-78 Q2-417 1-4 II P-62 P-84 Q2-418 1-4 II P-62 P-86 Q2-419 1-4 II P-76 P-78 Q2-420 1-4 II P-76 P-84 Q2-421 1-4 II P-76 P-86 Q2-422 1-4 II P-78 P-84 Q2-423 1-4 II P-78 P-86 Q2-424 1-4 II P-84 P-86 Q2-425 1-4 II-15 P-26 P-32 Q2-426 1-4 II-15 P-26 P-62 Q2-427 1-4 II-15 P-26 P-76 Q2-428 1-4 II-15 P-26 P-78 Q2-429 1-4 II-15 P-26 P-84 Q2-430 1-4 II-15 P-26 P-86 Q2-431 1-4 II-15 P-32 P-62 Q2-432 1-4 II-15 P-32 P-76 Q2-433 1-4 II-15 P-32 P-78 Q2-434 1-4 II-15 P-32 P-84 Q2-435 1-4 II-15 P-32 P-86 Q2-436 1-4 II-15 P-62 P-76 Q2-437 1-4 II-15 P-62 P-78 Q2-438 1-4 II-15 P-62 P-84 Q2-439 1-4 II-15 P-62 P-86 Q2-440 1-4 II-15 P-76 P-78 Q2-441 1-4 II-15 P-76 P-84 Q2-442 1-4 II-15 P-76 P-86 Q2-443 1-4 II-15 P-78 P-84 Q2-444 1-4 II-15 P-78 P-86 Q2-445 1-4 II-15 P-84 P-86 Q2-446 1-4 P-26 P-32 P-62 Q2-447 1-4 P-26 P-32 P-76 Q2-448 1-4 P-26 P-32 P-78 Q2-449 1-4 P-26 P-32 P-84 Q2-450 1-4 P-26 P-32 P-86 Q2-451 1-4 P-26 P-62 P-76 Q2-452 1-4 P-26 P-62 P-78 Q2-453 1-4 P-26 P-62 P-84 Q2-454 1-4 P-26 P-62 P-86 Q2-455 1-4 P-26 P-76 P-78 Q2-456 1-4 P-26 P-76 P-84 Q2-457 1-4 P-26 P-76 P-86 Q2-458 1-4 P-26 P-78 P-84 Q2-459 1-4 P-26 P-78 P-86 Q2-460 1-4 P-26 P-84 P-86 Q2-461 1-4 P-32 P-62 P-76 Q2-462 1-4 P-32 P-62 P-78 Q2-463 1-4 P-32 P-62 P-84 Q2-464 1-4 P-32 P-62 P-86 Q2-465 1-4 P-32 P-76 P-78 Q2-466 1-4 P-32 P-76 P-84 Q2-467 1-4 P-32 P-76 P-86 Q2-468 1-4 P-32 P-78 P-84 Q2-469 1-4 P-32 P-78 P-86 Q2-470 1-4 P-32 P-84 P-86 Q2-471 1-4 P-62 P-76 P-78 Q2-472 1-4 P-62 P-76 P-84 Q2-473 1-4 P-62 P-76 P-86 Q2-474 1-4 P-62 P-78 P-84 Q2-475 1-4 P-62 P-78 P-86 Q2-476 1-4 P-62 P-84 P-86 Q2-477 1-4 P-76 P-78 P-84 Q2-478 1-4 P-76 P-78 P-86 Q2-479 1-4 P-76 P-84 P-86 Q2-480 1-4 P-78 P-84 P-86

In tab. Q2 in accordance with specific embodiments of the invention, the corresponding component I is present as (S) enantiomer, in which each line corresponds to one embodiment of compositions in accordance with the invention, i.e one particular individualized composition. According to one particular aspect, these are ternary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions, individualized in this table, represents variants of wasps.

- 302 030875 of the present invention (S) enantiomer.

In tab. Q2, according to another specific embodiment of the invention, the corresponding component I is present in the form of (R) enantiomer, in which each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, these are ternary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions individualized in this table represents embodiments of the present invention (R) enantiomer.

One other aspect of the present invention is a new three-component compositions containing component II, component III and component IV, shown above in table. Q2, i.e. the compositions indicated in the following table. TQ2 because they are new.

Tab. TQ2: three-component compositions containing fungicidal components II, III and IV. Each line of lines from TQ2-1 to TQ2-120 corresponds to one particular individualized composition. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

TQ2 table

composition II III IV TQ2-1 P-6 II II-15 TQ2-2 P-6 II P-26 Tq2-3 P-6 II P-32 TQ2-4 P-6 II P-62 Tq2-5 P-6 II P-76 Tq2-6 P-6 II P-78 Tq2-7 P-6 II P-84 Tq2-8 P-6 II P-86 Tq2-9 P-6 II-15 P-26 TQ2-10 P-6 II-15 P-32 TQ2-11 P-6 II-15 P-62 Tq2-12 P-6 II-15 P-76 TQ2-13 P-6 II-15 P-78 TQ2-14 P-6 II-15 P-84 TQ2-15 P-6 II-15 P-86 TQ2-16 P-6 P-26 P-32 TQ2-17 P-6 P-26 P-62 TQ2-18 P-6 P-26 P-76 TQ2-19 P-6 P-26 P-78 Tq2-20 P-6 P-26 P-84 TQ2-21 P-6 P-26 P-86 TQ2-22 P-6 P-32 P-62 TQ2-23 P-6 P-32 P-76 TQ2-24 P-6 P-32 P-78 TQ2-25 P-6 P-32 P-84 Tq2-26 P-6 P-32 P-86 TQ2-27 P-6 P-62 P-76 TQ2-28 P-6 P-62 P-78 TQ2-29 P-6 P-62 P-84 Tq2-30 P-6 P-62 P-86 TQ2-31 P-6 P-76 P-78 TQ2-32 P-6 P-76 P-84 TQ2-33 P-6 P-76 P-86 TQ2-34 P-6 P-78 P-84 TQ2-35 P-6 P-78 P-86 TQ2-36 P-6 P-84 P-86 TQ2-37 II II-15 P-26 TQ2-38 II II-15 P-32

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TQ2-39 II-I II-15 P-62 Tq2-40 II-I II-15 P-76 TQ2-41 II-I II-15 P-78 TQ2-42 II-I II-15 P-84 TQ2-43 II-I II-15 II-8 6 TQ2-44 II-I P-26 P-32 TQ2-45 II-I P-26 P-62 TQ2-46 II-I P-26 P-76 TQ2-47 II-I P-26 P-78 TQ2-48 II-I P-26 P-84 TQ2-49 II P-26 II-8 6 Tq2-50 II P-32 P-62 TQ2-51 II P-32 P-76 TQ2-52 II P-32 P-78 TQ2-53 II P-32 P-84 TQ2-54 II P-32 II-8 6 TQ2-55 II P-62 P-76 TQ2-56 II P-62 P-78 TQ2-57 II P-62 P-84 TQ2-58 II P-62 II-8 6 TQ2-59 II P-76 P-78 TQ2-60 II P-76 P-84 TQ2-61 II P-76 II-8 6 TQ2-62 II P-78 P-84 TQ2-63 II P-78 II-8 6 TQ2-64 II P-84 II-8 6 TQ2-65 II-15 P-26 P-32 TQ2-66 II-15 P-26 P-62 TQ2-67 II-15 P-26 P-76 TQ2-68 II-15 P-26 P-78 TQ2-69 II-15 P-26 P-84 TQ2-70 II-15 P-26 II-8 6 TQ2-71 II-15 P-32 P-62 TQ2-72 II-15 P-32 P-76 TQ2-73 II-15 P-32 P-78 TQ2-74 II-15 P-32 P-84 TQ2-75 II-15 P-32 II-8 6 TQ2-76 II-15 P-62 P-76 TQ2-77 II-15 P-62 P-78 TQ2-78 II-15 P-62 P-84 TQ2-79 II-15 P-62 P-86 TQ2-80 II-15 P-76 P-78 TQ2-81 II-15 P-76 P-84 TQ2-82 II-15 P-76 P-86 TQ2-83 II-15 P-78 P-84 TQ2-84 II-15 P-78 P-86 TQ2-85 II-15 P-84 P-86 TQ2-86 P-26 P-32 P-62 TQ2-87 P-26 P-32 P-76 TQ2-88 P-26 P-32 P-78 TQ2-89 P-26 P-32 P-84 TQ2-90 P-26 P-32 P-86 TQ2-91 P-26 P-62 P-76 TQ2-92 P-26 P-62 P-78 TQ2-93 P-26 P-62 P-84 TQ2-94 P-26 P-62 P-86 TQ2-95 P-26 P-76 P-78 TQ2-96 P-26 P-76 P-84 TQ2-97 P-26 P-76 P-86 TQ2-98 P-26 P-78 P-84

- 304 030875

TQ2-99 P-26 P-78 II-8 6 TQ2-100 P-26 P-84 II-8 6 TQ2-101 P-32 P-62 P-76 TQ2-102 P-32 P-62 P-78 TQ2-103 P-32 P-62 P-84 TQ2-104 P-32 P-62 II-8 6 TQ2-105 P-32 P-76 P-78 TQ2-106 P-32 P-76 P-84 TQ2-107 P-32 P-76 II-8 6 TQ2-108 P-32 P-78 P-84 TQ2-109 P-32 P-78 II-8 6 TQ2-110 P-32 P-84 II-8 6 TQ2-111 P-62 P-76 P-78 TQ2-112 P-62 P-76 P-84 TQ2-113 P-62 P-76 II-8 6 TQ2-114 P-62 P-78 P-84 TQ2-115 P-62 P-78 II-8 6 TQ2-116 P-62 P-84 II-8 6 TQ2-117 P-76 P-78 P-84 TQ2-118 P-76 P-78 II-8 6 TQ2-119 P-76 P-84 II-8 6 TQ2-120 P-78 P-84 II-8 6

Other, particularly preferred compositions are four-part compositions, wherein component I is as defined above, i.e. Compound I, in particular a compound selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described in detail above, and components II, III and IV are selected from the following growth regulators:

II-1a mepiquat chloride

P-2a hlormekv chloride

P-3 and trineksapak-ethyl

P-4a prohexadione-calcium

P-5a is a phonon, with components II, III and IV being various active compounds.

Particularly preferred embodiments of these compositions are given in table. Q3, where each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized four-part composition. According to one particular aspect, they are four-part compositions, each of which contains only these four components as an active compound. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. Q3: Quadruple compositions containing component I and growth regulators as components II, III and IV.

Table Q3

composition I II III IV Q3-1 1-1 II-1a P-2a P-3 and Q3-2 1-1 II-1a P-2a P-4 and Q3-3 1-1 II-1a P-2a P-5a Q3-4 1-1 II-1a P-3 and P-4a Q3-5 1-1 II-1a P-3 and P-5a Q3-6 1-1 II-1a P-4a P-5a Q3-7 1-1 P-2a P-3 and P-4 and Q3-8 1-1 P-2a P-3 and P-5a Q3-9 1-1 P-2a P-4a P-5a Q3-10 1-1 P-3 and P-4a P-5a Q3-11 1-5 II-1a P-2a P-3 and Q3-12 1-5 II-1a P-2a P-4a Q3-13 1-5 II-1a P-2a P-5a Q3-14 1-5 II-1a P-3 and P-4 and Q3-15 1-5 II-1a P-3 and P-5a Q3-16 1-5 II-1a P-4a P-5a Q3-17 1-5 P-2a P-3 and P-4a Q3-18 1-5 P-2a P-3 and P-5a Q3-19 1-5 P-2a P-4a P-5a Q3-20 1-5 P-3 and P-4a P-5a

- 305 030875

Q3-21 1-3 II-1a P-2a Pz Q3-22 1-3 II-1a P-2a P-4a Q3-23 1-3 II-1a P-2a II-5 a Q3-24 1-3 II-1a Pz P-4a Q3-25 1-3 II-1a Pz II-5 a Q3-26 1-3 II-1a P-4a II-5 a Q3-27 1-3 P-2a Pz P-4a Q3-28 1-3 P-2a Pz II-5 a Q3-29 1-3 P-2a P-4a II-5 a Q3-30 1-3 Pz P-4a II-5 a Q3-31 1-4 II-1a P-2a Pz Q3-32 1-4 II-1a P-2a P-4a Q3-33 1-4 II-1a P-2a II-5 a Q3-34 1-4 II-1a Pz P-4a Q3-35 1-4 II-1a Pz II-5 a Q3-36 1-4 II-1a P-4a II-5 a Q3-37 1-4 P-2a Pz P-4a Q3-38 1-4 P-2a Pz II-5 a Q3-39 1-4 P-2a P-4a II-5 a Q3-40 1-4 Pz P-4a II-5 a

In tab. Q3 in accordance with particular embodiments of the invention, the corresponding component I is present as (S) enantiomer, in which each row corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, these are ternary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions individualized in this table represents embodiments of the present invention (S) enantiomer.

In tab. Q3, according to another specific embodiment of the invention, the corresponding component I is present in the form of (R) enantiomer, in which each line corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, these are ternary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions individualized in this table represents embodiments of the present invention (R) enantiomer.

Other particularly preferred compositions are four-component compositions, wherein component I is as defined above, i.e. compound I, in particular compound chosen from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I, described in detail above, components II are selected from the following fungicides:

N-azoxystrobin

P-42 fluxapiroxad

P-53 Kresoxim-methyl

P-66 Pyraclostrobin

P-72 penthiopyrad

P-92 trifloksistrobin and component II, selected from the group of the following compounds:

II-11 with clothianidin

P-24c Imidacloprid

P-42c to thiamethoxam, and component IV means fipronil (compound P-20c).

Particularly preferred embodiments of these compositions are given in table. Q4, where each line corresponds to one embodiment of compositions in accordance with the invention, i.e. one specific individual four-part composition. According to one particular aspect, they are four-part compositions, each of which contains only these four components as an active compound. In addition, also any combination of compositions, individualized in this table, represents embodiments of the present invention.

Tab. Q4: Quadruple compositions containing component I, a specific fungicide as component II, and special insecticides as components III and IV.

- 306 030875

Table q4

composition I II III IV Q4-1 1-1 Fz P-11s P-20s Q4-2 1-1 Fz P-24s P-20s Q4-3 1-1 Fz P-42s P-20s Q4-4 1-1 P-42 P-11s P-20s Q4-5 1-1 P-42 P-24s P-20s Q4-6 1-1 P-42 P-42s P-20s Q4-7 1-1 II-53 P-11s P-20s Q4-8 1-1 II-53 P-24s P-20s Q4-9 1-1 II-53 P-42s P-20s Q4-10 1-1 P-66 P-11s P-20s Q4-11 1-1 P-66 P-24s P-20s Q4-12 1-1 P-66 P-42s P-20s Q4-13 1-1 P-72 P-11s P-20s Q4-14 1-1 P-72 P-24s P-20s Q4-15 1-1 P-72 P-42s P-20s Q4-16 1-1 P-92 P-11s P-20s Q4-17 1-1 P-92 P-24s P-20s Q4-18 1-1 P-92 P-42s P-20s Q4-19 1-5 Fz P-11s P-20s Q4-20 1-5 Fz P-24s P-20s Q4-21 1-5 Fz P-42s P-20s Q4-22 1-5 P-42 P-11s P-20s Q4-23 1-5 P-42 P-24s P-20s Q4-24 1-5 P-42 P-42s P-20s Q4-25 1-5 II-53 P-11s P-20s Q4-26 1-5 II-53 P-24s P-20s Q4-27 1-5 II-53 P-42s P-20s Q4-28 1-5 P-66 P-11s P-20s Q4-29 1-5 P-66 P-24s P-20s Q4-30 1-5 P-66 P-42s P-20s Q4-31 1-5 P-72 P-11s P-20s Q4-32 1-5 P-72 P-24s P-20s Q4-33 1-5 P-72 P-42s P-20s Q4-34 1-5 P-92 P-11s P-20s Q4-35 1-5 P-92 P-24s P-20s Q4-36 1-5 P-92 P-42s P-20s Q4-37 1-3 Fz P-11s P-20s Q4-38 1-3 Fz P-24s P-20s Q4-39 1-3 Fz P-42s P-20s Q4-40 1-3 P-42 P-11s P-20s Q4-41 1-3 P-42 P-24s P-20s Q4-42 1-3 P-42 P-42s P-20s Q4-43 1-3 P-53 P-11s P-20s Q4-44 1-3 P-53 P-24s P-20s Q4-45 1-3 P-53 P-42s P-20s Q4-46 1-3 P-66 P-11s P-20s Q4-47 1-3 P-66 P-24s P-20s Q4-48 1-3 P-66 P-42s P-20s Q4-49 1-3 P-72 P-11s P-20s Q4-50 1-3 P-72 P-24s P-20s Q4-51 1-3 P-72 P-42s P-20s Q4-52 1-3 P-92 P-11s P-20s Q4-53 1-3 P-92 P-24s P-20s Q4-54 1-3 P-92 P-42s P-20s Q4-55 1-4 Fz P-11s P-20s Q4-56 1-4 Fz P-24s P-20s Q4-57 1-4 Fz P-42s P-20s Q4-58 1-4 P-42 P-11s P-20s Q4-59 1-4 P-42 P-24s P-20s Q4-60 1-4 P-42 P-42s P-20s Q4-61 1-4 P-53 P-11s P-20s Q4-62 1-4 P-53 P-24s P-20s Q4-63 1-4 P-53 P-42s P-20s Q4-64 1-4 P-66 P-11s P-20s Q4-65 1-4 P-66 P-24s P-20s Q4-66 1-4 P-66 P-42s P-20s Q4-67 1-4 P-72 P-11s P-20s Q4-68 1-4 P-72 P-24s P-20s Q4-69 1-4 P-72 P-42s P-20s Q4-70 1-4 P-92 P-11s P-20s Q4-71 1-4 P-92 P-24s P-20s Q4-72 1-4 P-92 P-42s P-20s

In tab. Q4, in accordance with specific embodiments of the invention, the corresponding component I is present as (S) enantiomer, in which each line corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, these are triple compositions, each of

- 307 030875 which contains only these two components as active compounds. In addition, also any combination of compositions individualized in this table represents embodiments of the present invention (S) enantiomer.

In tab. Q4, according to another specific embodiment of the invention, the corresponding component I is present in the form of (R) enantiomer, in which each line corresponds to one embodiment of compositions in accordance with the invention, i.e. one particular individualized composition. According to one particular aspect, these are ternary compositions, each of which contains only these two components as active compounds. In addition, also any combination of compositions individualized in this table represents embodiments of the present invention (R) enantiomer.

Another aspect of the invention is compositions comprising more than four active ingredients, such as, in particular, five-component compositions. In addition to the four components I, II, III and IV, as described in detail above, these compositions in accordance with the invention contain component V. Component V is selected from any of the groups from A) to O). Any additional active ingredients, such as component V, if desired, are added in a ratio of from 20: 1 to 1:20, in particular from 10: 1 to 1:10, in particular from 3: 1 to 1: 3, to compound I .

In accordance with one embodiment of the five component compositions, components I, II, III and IV are as defined above and preferably defined as above, and component V is selected from one of the groups A) to I).

One particular embodiment relates to five-component compositions, wherein component I is as defined above, particularly selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described above in detail components II, III and IV are as defined above and preferably defined above, and component V is selected from the group

A) respiratory inhibitors. In accordance with one embodiment, component V is selected from the group of inhibitors of complex III in Q _o plot, for example, strobilurins. In particular, component V is selected from the group consisting of azoxystrobin, dimoxystrobin, fluoxastrobin, kresoximmethyl, orysastrobin, picoxystrobin, pyraclostrobin, trifloxystrobin, famoxadone, and fenamidone.

In accordance with another embodiment, component V is selected from the group of inhibitors of complex II, for example, carboxamides. In particular, component V is selected from the group that includes benzovindiflupir, bixaphen, boscalid, fluopyram, fluxapyroxad, isopyrazam, penflufen, pentiopyrad and sedaksan. According to another embodiment, component V is selected from the group of ametotradine, cyazofamide, fluazinam, fentin salts, such as fentin acetate.

One particular embodiment relates to five-component compositions, wherein component I is as defined above, particularly selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described above in detail components II, III and IV are as defined above and preferably defined above, and component V is selected from the group

B) Sterol biosynthesis inhibitors (IHD fungicides). In accordance with one of its options, component V is selected from the group of C14 demethylase inhibitors (fungicides of IDM), selected from the languages of the Ministry of Environmental Security and Restoration; , tetraconazole, triticonazole, prochlorine, fenarimol and triforina. In accordance with another embodiment thereof, component V is selected from the group of delta-14 reductase inhibitors, in particular dodemorph, fenpropimorph, tridemorph, fenpropidin and spiroxamine. In accordance with another embodiment of its implementation, component V is selected from the group of 3-ketoreductase inhibitors, such as fenhexamide.

In accordance with another embodiment of the five component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5, or from any group of compounds I described in detail above, components II, III and IV are as defined above and preferably defined above, and component V is selected from group C) inhibitors of nucleic acid synthesis, and in particular metalaxyl, (metalaxyl-M) mefenoxam, ofurace is chosen.

In accordance with another embodiment of the five component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5, or from any group of compounds I described in detail above, components II, III and IV are as defined above and preferably defined above, and component V is selected from group D) inhibitors of cell division and cytoskeleton, such as benomyl, carbendazim, thiophanate methyl, ethaboxam, flupicolide, zoxamide, metrafenone, pyriofenone, in particular ethaboxam, zoxamide and metrafenone.

In accordance with another embodiment of the five component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5, or from any group of compounds I described in detail above, components II, III and IV are as defined above and preferably defined above, and component V is selected from group E) inhibitors of the synthesis of amino acids and proteins, particularly selected from cyprodinil, mepanipyrim and pyrimethanil.

In accordance with another embodiment of the five component compositions, component I,

- 308 030875 as defined above, in particular selected from compounds I-1, I-3, I-4 and I-5 or from any group of compounds I described above, components II, III and IV are as defined above and is preferably defined above, and component V is selected from the group F) of signal transduction inhibitors, especially those selected from iprodione, fludioxonil, vinclozolin and quinoxyfen.

In accordance with another embodiment of the five component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5, or from any group of compounds I described in detail above, components II, III and IV are as defined above and preferably defined above, and component V is selected from group G) lipid and membrane synthesis inhibitors such as dimethomorph, flumorph, iprovalicarb, benthiavalicarb, mandipropamid and propamocarb.

In accordance with another embodiment of the five component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5, or from any group of compounds I described in detail above, components II, III and IV are as defined above and preferably defined above, and component V is selected from the group H) inhibitors with a multilateral action, especially selected from copper acetate, (three) basic copper sulfate, copper oxychloride, copper sulfate, sulfur, mancozeba , metiram, propineb, thiram, captafol, folpet, chlorothalonil, dichlofluanid and dithianon.

In accordance with another embodiment of the five component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5, or from any group of compounds I described in detail above, components II, III and IV are as defined above and preferably defined above, and component V is selected from group I) inhibitors of cell wall synthesis, in particular selected from carpropamide and phenoxanil.

In accordance with another embodiment of the five component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5, or from any group of compounds I described in detail above, components II, III and IV are as defined above and preferably defined above, and component V is selected from group J) of plant protection inducers, particularly selected from acibenzolar-B-methyl, probenazole, thiadinyl, fosetyl, fosetillailumini, phosphorous acid and its salts, such as potassium salt of phosphorous acid oy, sodium phosphate salt, calcium phosphate salt, lithium salt of phosphorous acid and aluminum salt of phosphorous acid.

In accordance with another embodiment of the five component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5, or from any group of compounds I described in detail above, components II, III and IV are as defined above and preferably defined above, and component V is selected from group K), especially selected from cymoxanil, proquinazide and methyl 2- {1 - [(5-methyl-3-trifluoromethyl-1H -pyrazol-1yl) acetyl] piperidin-4-yl} -H - [(III) -1,2,3,4-tetrahydronaphthalen-1-yl] -4-thiazolecarboxamide.

In accordance with another embodiment of the five component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5, or from any group of compounds I described in detail above, components II, III and IV are as defined above and preferably defined above, and component V is selected from any component of group L) (anti-fungal biocontrol agents and plant bioactivators), in particular, NRRL strain B-21661 selected from Bacillus subtilis, Bacillus pumilus NRRL strain No. B-30087 and Ulocladium oudemansii.

In accordance with another embodiment of the five component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5, or from any group of compounds I described in detail above, components II, III and IV are as defined above and preferably defined above, and component V is selected from any component of group M) (growth regulators). In accordance with one particular embodiment, the growth regulator is selected from chloromequate (chlormequate chloride), mepiquat (mepiquat chloride), paclobutrazole, prohexadione (prohexadione-calcium), trinexapac-ethyl and uniconazole.

In accordance with another embodiment of the five component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5, or from any group of compounds I described in detail above, and component II component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5, or from any group of compounds I described in detail above, components II, III and IV are as defined above and is preferably defined above, and component V from any component of the group N) (herbicides).

In accordance with another embodiment of the five component compositions, component I, as defined above, is particularly selected from compounds I-1, I-3, I-4 and I-5, or from any group of compounds I described in detail above, components II, III and IV are as defined above and preferably defined as above, and component V from any component of group O) (insecticides). According to one particular embodiment, the insecticide is selected from the group of organo (thio) phosphates, especially selected from the group that includes acephate, chlorpyrifos, pyrifos, dichlorvos, dimethoate, fenitrothion, methamidophos, methidation, methyl parathion, monocrotophos, fo

- 309 030875 rat, profenofos and terbufos. In accordance with another specific embodiment, the insecticide is selected from the group of carbamates, in particular selected from the group that includes aldicarb, carbaryl, carbofuran, carbosulfan, methomyl and thiodicarb. In accordance with another specific embodiment, the insecticide is selected from the group of pyrethroids, in particular selected from the group which includes: bifenthrin, cyfluthrin, cypermethrin, alpha-cypermethrin, zeta-cypermethrin, deltamethrin, esfenvalerate, lambda-cyhalothrin and tefluthrin. In accordance with another specific embodiment, the insecticide is selected from the group of insect growth regulator, especially selected from the group that includes lufenuron and spirotetramat. In accordance with another specific embodiment, the insecticide is selected from the group of nicotinic receptor agonists / antagonists, in particular those selected from the group that includes: clothianidin, imidacloprid, thiamethoxam and thiacloprid. In accordance with another specific embodiment, the insecticide is selected from the group of G AMK antagonists, especially selected from the group that includes: endosulfan and fipronil. In accordance with another specific embodiment, the insecticide is selected from the group of macrocyclic lactones, especially selected from the group which includes: abamectin, emamectin, spinosad and spinetoram. According to another specific embodiment, the insecticide is hydramethylnon. According to another specific embodiment, the insecticide is fenbutatin oxide. In accordance with another specific embodiment, the insecticide is selected from the group that includes chlorfenapyr, indoxacarb, metaflumizon, flonicamid, fluadiandiamide, cyazipir (HGW86), and cytomethene.

Compositions in accordance with the invention are suitable as fungicides. They are distinguished by their excellent efficacy against a wide range of phytopathogenic fungi, including soil fungi, which in particular belong to the classes of plasmodoforomycetes, peronosporomycetes (syn. Oomycetes), stilts, zygomycetes, ascomycetes, basidiomycetes, and deuteromycetes (syn. Non-perfect mushrooms). Some are systemically effective, and they can be applied to plant protection as leaf, seed and soil fungicides. Moreover, they are suitable for combating harmful fungi that, among other things, affect wood or plant roots.

Some compositions of the invention are particularly suitable for seed treatment. For example, a three-component composition in accordance with the invention, wherein component I is as defined above, component II is selected from inhibitors of sterol biosynthesis (IHD fungicides), in particular from inhibitors of C14 demethylase (fungicides IDM), and component III is chosen from inhibitors of signal transduction, suitable for seed treatment, and, in a particular embodiment, component II is triticonazole and component III is fludioxonil.

In addition, also some four-component compositions in accordance with the invention are particularly suitable for seed treatment. For example, the composition, wherein Component I is as defined above, Component II is selected from Sterol biosynthesis inhibitors (IBS fungicides), in particular from C14 demethylase inhibitors (IDM fungicides), Component III is selected from signal transduction inhibitors and Component IV is selected from carboxamide groups, especially those selected from benodanil, benzovindiflupira, bixafen, boscalid, carboxin, fenfuram, fluopiram, flutolanil, fluxapiroxad, furametpire, isopyrazam, mepronil, oxycarboxin, penfluflufam, pyrophosphate, isopirazam, mefronamide, oxycarboxin, flutolanil, fluxapiroxad, furametpira, isopirazam, mepronamide edaxane, tecloftalam, tifluzamida, N- (4'-trifluoromethylthiobiphenyl-2-yl) -3difluoromethyl-1-methyl-Sh-pyrazole-4-carboxamide, N- (2- (1,3,3-trimethylbutyl) phenyl) - 1,3-dimethyl-5fluoro-III-pyrazole-4-carboxamide, 3- (difluoromethyl) -1-methyl-N- (1,1,3-trimethylindan-4-yl) pyrazole-4carboxamide, 3- (trifluoromethyl) -1-methyl-N- (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide, 1,3-dimethyl-N- (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide , 3- (trifluoromethyl) -1,5-dimethyl-L- (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide, 3- (difluoromethyl) -1,5-dimethyl-L- (1,1) , 3-trimethylindan-4yl) pyrazole-4-carboxamide and 1,3,5-trimethyl-L- (1,1 , 3-trimethylindan-4-yl) pyrazole-4-carboxamide, in particular, selected from benzovindiflupir, bixaphen, boscalid, fluopyram, fluxapiroxad, isopyrazam, penflufen, pentiopyrad and sedaksan. In a specific embodiment for seed treatment, component II is triticonazole, component III is fludioxonil, and component IV is fluxapiroxad.

Compositions in accordance with the invention are of particular importance for controlling a variety of pathogenic fungi on various cultivated plants, such as grain crops, such as wheat, rye, barley, triticale, oats, or rice; beets, for example, sugar or fodder beets; fruits, such as pome, stone and berry fruits, such as apples, pears, plums, peaches, almonds, cherries, strawberries, raspberries, currants or gooseberries; legumes such as lentils, peas, alfalfa, or soybeans; oil plants such as rape, mustard, olive, sunflower, coconut, cocoa beans, castor oil, oil palm, peanuts or soybeans; pumpkin, such as, large pumpkin, cucumbers or melons; fibrous plants such as cotton, flax, hemp or jute; citrus fruits such as oranges, lemons, grapefruits, or tangerines; vegetable plants such as spinach, lettuce, asparagus, cabbage, carrots, onions, tomatoes, potatoes, pumpkins, or chilli peppers; laurel plants such as avocados, cinnamon or camphor; energy and raw plants such as corn, soybean, canola, sugarcane or oil palm; corn; tobacco; nuts; coffee;

- 310 030875 tea; bananas; grapes (table and wine); hop; turf; sweet grass (also called stevia); rubber plants or ornamental and forest plants, such as flowers, shrubs, deciduous trees or evergreens, such as conifers, and on plant propagation material such as seeds and harvested crops of these plants.

Preferably, the compositions according to the invention are used to control a variety of fungi on crop crops, such as potatoes, sugar beets, tobacco, wheat, rye, barley, oats, rice, corn, cotton, soybeans, canola, legumes, sunflower, coffee or sugarcane ; fruit, grape; ornamental plants; or vegetable crops, such as cucumbers, tomatoes, beans, or large pumpkin.

The concept of plant propagation material includes all the generative parts of a plant, such as seeds and vegetative parts of plants, such as cuttings and tubers (for example, potatoes) that can be used to propagate a plant. These include seeds, roots, fruits, tubers, bulbs, rhizomes, shoots and other parts of plants, including seedlings and young plants, which are transplanted after germination or emergence from the ground. These young plants can also be protected before transplanting by full or partial treatment by dipping or watering.

Preferably, the processing of plant propagation materials with the components of the compositions according to the invention and the compositions according to the invention is used to combat a variety of fungi on cereals such as wheat, rye, barley and oats; rice, corn, cotton and soybeans.

The concept of cultivated plants also covers those plants that have been modified through cultivation, mutagenesis or genetic engineering methods, including, but limited to, biotechnological agricultural products that are on the market or in development (see, http://cera-gmc.org/, see there is a database of GM crops). Genetically modified plants are plants whose genetic material has been modified in this way using recombinant DNA technology, which under natural conditions cannot be obtained quickly by crossing, mutations, or natural recombination. Typically, one or more genes are integrated into the genetic material of a genetically modified plant in order to improve certain properties of the plant. Such genetic modifications also include, but are not limited to, post-translational modifications of the protein (s), oligopeptides or polypeptides, for example, by glycosylation or additions of polymers, such as prenylated, acetylated or farnesylated parts or PEG.

Plants that have been modified by selection, mutagenesis, or genetic engineering, for example, nm have been given resistance to the use of particular classes of herbicides, such as auxin herbicides, such as dicamba or 2,4-D; bleaching herbicides such as hydroxyphenylpyruvate dioxygenase inhibitors (HPPDs) or phytoene desaturase inhibitors (PDS); acetolactate synthase inhibitors (ALS), such as sulfonylureas or imidazolinones; enolpiruvilshi glufosinate inhibitors; protoporphyrinogen-IX oxidase inhibitors; lipid biosynthesis inhibitors such as acetyl CoA carboxylase inhibitors (ACCase); or oxynil herbicides (i.e., bromoxynil or ioxynil) as a result of conventional growing methods or genetic engineering. In addition, plants were obtained that, due to various genetic modifications, are resistant to many classes of herbicides, for example, resistant to glyphosate and glufosinate, or to glyphosate and to a herbicide from another class, such as ALS inhibitors, HPPD inhibitors, auxin herbicides and ACCase inhibitors . These herbicide resistance technologies are described, for example, in Pest Managem. Sci. 61, 2005, 246; 61, 2005, 258; 61, 2005, 277; 61, 2005, 269; 61, 2005, 286; 64, 2008, 326; 64, 2008, 332; Weed sci. 57, 2009, 108; Austral. J. Agricult. Res. 58, 2007, 708; Science 316, 2007, 1185; and in the references cited there. Thanks to the usual cultivation methods (mutagenesis), some cultivated plants have acquired resistance to herbicides, for example, Clearfield® rape (Canola, BASF SE, Germany), which is resistant to imidazolinones, for example, imazamox or Sunflower ExpressSun® (DuPont, USA), which has resistant to sulfonylureas, for example, tribenuron. Genetic engineering techniques have been used to make cultivated plants, such as soybeans, cotton, corn, beets and rape, resistance to herbicides, such as glyphosate, dicamba, imidazolinones and glufosinate, some of which are under development or are commercially available under trade names. RoudupReady® (glyphosate resistant, Monsanto, USA), Cultivance® (imidazolinone resistant, BASF SE, Germany) and Liberty Link® (glufosinate resistant, Bayer CropScience, Germany).

In addition, plants are also included that are able to synthesize one or more insecticidal proteins using recombinant DNA technology, especially those known from the genus Bacillus bacteria, in particular Bacillus thuringiensis, such as 5-endotoxins, for example, CryIA (b), CryIA (c ), CryIF, CryIF (a2), CryIIA (b), CryIIIA, CryIIIB (b1) or Cry9c; vegetative insecticidal proteins (VIP), for example, VIP1, VIP2, VIP3 or VIP3A; insecticidal proteins colonized by bacteria are not

- 311 030875 matod, for example, Photorhabdus species or Xenorhabdus species; animal toxins, such as scorpion toxins, spider toxins, wasp toxins, or other insect neurotoxins; mushroom-produced toxins such as streptomycete toxins; vegetable lectins, such as pea or barley lectins; agglutinins; proteinase inhibitors such as trypsin inhibitors, serine protease inhibitors, patatin, cystatin or papain inhibitors; ribosome-activating proteins (RIB), such as ricin, corn rib, abrin, luffin, saporin or briodin; steroid metabolism enzymes such as 3-hydroxysteroid oxidase, ecdysteroid-IDP-glycosyl transferase, cholesterol oxidase, ecdysone inhibitors or HMG-CoA reductase; ion channel blockers such as inhibitors of sodium or calcium channels; juvenile hormone esterase; diuretic hormone receptors (helicokinin receptors); stilbenzene, bibenzylsintaz, chitinases and glucanase. In the context of the present invention, these insecticidal proteins or toxins should also be clearly understood as pre-toxins, hybrid proteins, truncated or otherwise modified proteins. Hybrid proteins are distinguished by a new combination of protein domains, (see, for example, WO 02/015701). Other examples of similar toxins or genetically modified plants capable of synthesizing such toxins are disclosed, for example, in EP-A 374753, WO 93/007278, WO 95/34656, EP-A 427529, EP-A 451878, WO 03/18810 and WO 03/52073. Methods for producing such genetically modified plants are generally known to a person skilled in the art and are described, for example, in the above publications. These insecticidal proteins contained in genetically modified plants, give the plants that produce them, resistance to animal pests from all taxonomic classes of arthropods, in particular, to beetles (Coeloptera), to dipterous insects (Diptera), and to lepidopterans (Lepidoptera) and to the nematodes (Nematoda). Genetically modified plants that can synthesize one or more insecticidal proteins are described, for example, in the above publications, and some of them are commercially available, such as YieldGard (corn varieties that produce Cry1Ab toxin), YieldGard® Plus (corn varieties that produce Cry1Ab and Cry3Bb1 toxins), Starlink® (corn varieties that produce Cry9c toxin), Herculex® RW (corn varieties that produce Cry34Abl toxins, Cry35Ab1, and phosphinotricin-Yuacetiltransferase [PAT]); NuCOTN® 33B (cotton varieties that produce Cry1Ac toxin), Bollgard® I (cotton varieties that produce Cry1 Ac toxin), Bollgard® II (cotton varieties that produce Cry1Ac and Cry2Ab2 toxins); VIPCOT® (cotton varieties that produce VIP toxin); NewLeaf® (potato varieties that produce a Cry3A toxin); Bt-Xtra®, NatureGard®, KnockOut®, BiteGard®, Protecta®, Bt11 (for example, Agrisure® CB) and Bt176 from Syngenta Seeds SAS, France, (corn varieties that produce Cry1Ab toxin and the PAT enzyme), MIR604 from Syngenta Seeds SAS, France (corn varieties that produce a modified version of O3AA toxin, see WO 03/018810), M0N 863 from Monsanto Europe SA, Belgium (corn varieties that produce Cry3Bb1 toxin), IPC 531 from Monsanto Europe SA, Belgium ( cotton varieties that produce a modified version of the Cry1Ac toxin) and 1507 from Pioneer Overseas Corporation, Belgium (corn varieties that produce the Cry1F toxin and the PAT enzyme).

Also included are plants that, using recombinant DNA technology, are able to synthesize one or more proteins that cause increased resistance or resistance to bacterial, viral or fungal pathogens. Examples of such proteins are the so-called pathogenesis-dependent proteins (PR proteins, see, for example, EP-A 392225), plant disease resistance genes (for example, potato varieties that express resistant genes acting against Phytophthora infestans, derived from wild Mexican potato Solarium bulbocastanum) or T4 lysozyme (for example, potato varieties that are able to synthesize these proteins with increased resistance to bacteria such as Erwinia amylvora). Methods for producing such genetically modified plants are generally known to a person skilled in the art and are described, for example, in the above publications.

In addition, plants are also included that, through the use of recombinant DNA technology, are able to synthesize one or more proteins to increase productivity (for example, biomass production, grain yield, starch content, oil content or protein content), resistance to drought, salinity or other limiting factors. environment or the resistance of such plants to animal pests and fungal, bacterial and viral pathogens of such plants.

In addition, plants are also included that, through the use of recombinant DNA technologies, contain an altered amount of contained substances or new substances, particularly to improve the nutrition of people and animals, for example, oilseeds that produce health-improving long-chain omega-3 fatty acids or monounsaturated omega - 9 fatty acids (for example, rapeseed Nexera®, DOW Agro Sciences, Canada).

Furthermore, plants are also included, which, thanks to the use of recombinant DNA technology, contain an altered amount of contained substances or new substances, especially for

- 312 030875 raw material production, for example, potatoes, which produce increased amounts of amylopectin (for example, Amflora® potatoes, BASF SE, Germany).

The compositions are particularly suitable for controlling the following plant diseases:

Albugo (white rust) species on ornamental plants, vegetable crops (for example, A. Candida) and sunflower (for example, A. tragopogonis); Alternaria spp. (Alternaria leaf spot) on vegetables, rape (A. brassicola or brassicae), sugar beets (A. tenuis), fruits, rice, soybeans, potatoes (for example A. solani or A. alternata), tomatoes ( for example, A. solani or A. alternata) and wheat; Aphanomyces species on sugar beet and vegetable crops; Ascochyta species on cereals and vegetables, for example, A. tritici (anthracnose) on wheat and A. hordei on barley; Bipolaris and Drechslera species (teleomorph: Cochliobolus species), for example, eye spot of maize leaves (for example, D. maydis), or gelmintosporioz of leaves (B. zeicola) on corn, for example, gelmintosporios root rot (B. sorokiniana) on cereals and, for example, B. oryzae on rice and turf; Blumeria (formerly Erysiphe) graminis (powdery mildew) on cereals (for example, on wheat or barley); Botrytis cinerea (teleomorph: Botryotinia fuckeliana: gray mold) on fruits and berries (for example, strawberries), vegetables (for example, lettuce, carrots, celery and cabbage), rapeseed, flowers, grapevines, forest crops and wheat; Bremia lactucae (downy mildew) on lettuce; Ceratocystis (syn. Ophiostoma) species (rot or wilt) on deciduous and evergreen trees, for example, C. ulmi (Dutch disease of elm species) on elms; Cercospora spp. (Chalcosporosis leaf spot) on corn (for example, gray leaf spot: S. zeae-maydis), rice, sugar beet (for example, S. beticola), sugar cane, vegetables, coffee, soybeans (for example, C. sojina or S. kikuchii) and rice; Cladosporium species on tomatoes (for example, C. fulvum: foliage mold) and cereals, for example, C. herbarum (olive mold) on wheat; Claviceps purpurea (ergot) on cereals; Cochliobolus (anamorph: Helminthosporium from Bipolaris) species (leaf spot) on corn (C. carbonum), cereals (for example, C. sativus, anamorph: B. sorokiniana) and rice (for example, S. miyabeanus, anamorph: N. oryzae) ] types of Colletotrichum (teleomorph: Glomerella) (anthracnose) on cotton (for example, S. gossypii), corn (for example, C. graminicola: anthracnose stem rot), berries, potatoes (for example, S. coccodes: potato and tomato anthracnose), beans (for example, C. lindemuthianum) and soybeans (for example, C. triincatum or C. gloeosporioides); Corticium species, for example, C. sasakii (rhizoctoniosis of stems and vagina) on rice; Corynespora cassiicola (black spot) on soybeans and ornamental plants; Cycloconium species, for example, S. oleaginum in olive trees; Cylindrocarpon species (for example, fruit tree or vine necrosis, teleomorph: Nectria or Neonectria species) on fruit trees, grape vines (for example, C. liriodendri, teleomorph: Neonectria liriodendri: black leg disease) and ornamental plants; Dematophora necatrix (teleomorph: Rosellinia) (root and stem rot) on soybeans; Diaporthe species, for example, D. phaseolorum (black leg) on soybeans; Drechslera spp. (syn. Helminthosporium, teleomorph: Pyrenophora) on corn, cereals, such as barley (for example, D. teres, reticular blotch) and wheat (for example, D. tritici-repentis: pyrenophorosis), rice and turf; Esca (dying, apoplexy) on vines, caused Formitiporia (syn Phellinus.) Punctata, F. mediterranean Phaeomoniella chlamydospora (earlier Phaeoacremonium chlamydosporum), Phaeoacremonium aleophilum and / or Botryosphaeria obtusa; Elsinoe species on pome fruit (E. pyri), berry (E. veneta: anthracnose) and grape vines (E. ampelina: anthracnose); Entyloma oryzae (leaf smut) on rice; Epicoccum species (black mold) on wheat; Erysiphe species (powdery mildew) on sugar beet (E. betae), vegetable crops (for example, E. pisi), such as pumpkin (for example, E. cichoracearum), cabbage, rape (for example, E. cruciferarum); Eutypa lata (eutiposis, cancer or dying off, anamorph: Cytosporina lata, syn. Libertella blepharis) on fruit trees, vines and ornamental shrubs; Exserohilum (syn. Helminthosporium) species on corn (for example E. turcicum); Fusarium (teleomorph: Gibberella) species (wilt, root or stem rot) on various plants, such as F. graminearum or F. culmorum (root rot, scab or fusarium) on cereals (for example, wheat or barley), F. oxysporum on Tomatoes, F. solani (El. type of glycine is now syn. F. virguliforme) and F. tucumaniae and F. brasiliense, each causing sudden death syndrome on soybeans and F. verticillioides on corn; Gaeumannomyces graminis (decimation) on cereals (for example, wheat or barley) and corn; Gibberella species on cereals (for example, G. zeae) and rice (for example, G. fujikuroi: Bakanae disease); Glomerella cingulata on vines, pome fruits and other plants and G. gossypii on cotton; grain dyeing complex on rice; Guignardia bidwellii (black rot) on vines; Gymnosporangium species on rosaceous plants and juniper, for example, G. sabinae (rust) on pears; Helminthosporium species (syn. Drechslera, teleomorph: Cochliobolus) on corn, cereals and rice; Hemileia species, for example, N. vastatrix (coffee leaf rust) on coffee; Isariopsis clavispora (syn. Cladosporium vitis) on vines; Macrophomina phaseolina (syn. Phaseoli) (root and stem rot) on soybeans and cotton; Microdochium (syn. Fusarium) nivale (pink snow mold) on cereals (for example, wheat or barley); Microsphaera diffusa (powdery mildew) on soybeans; Monilinia species, for example, M. laxa, M. fructicola and M. fructigena (dry flowers and leaf tips, brown rot) on stone fruit and other rosaceous plants; Mycosphaerella species on cereals, bananas, berries and peanuts, such as, for example, M. graminicola

- 313 030875 (anamorph: Septoria tritici, septoria spottiness) on wheat or M. fijiensis (Black Sigatoka disease) on bananas; Peronospora species (downy mildew) on cabbage (for example, P. brassicae), canola (for example, P. parasitica), bulbous plants (for example, P. destructor), tobacco (P. tabacina), and soybeans (for example, P. manshurica); Phakopsora pachyrhizi and P. meibomiae (soybean rust) on soybeans; Phialophora species, for example, on vines (for example, P. tracheiphila and P. tetraspora) and soybeans (for example, P. gregata: stem rot); Phoma lingam (root and stem rot) on rapeseed and cabbage and P. betae (root rot, black spot and black leg) on sugar beets; Phomopsis species on sunflower, vines (for example, P. viticola: black spot) and soybeans (for example, stem rot: P. phaseoli, teleomorph: Diaporthe phaseolorum); Physoderma maydis (brown spot) on corn; Phytophthora species (wilt, root, leaf, fruit and stem rot) on various plants, such as paprika and pumpkin (for example, P. capsici), soy beans (for example, P. megasperma, syn. P. sojae), potatoes and tomatoes (for example, P. infestans: late blight) and hardwood trees (for example, P. ramorum: sudden death of oak); Plasmodiophora brassicae (kila) on cabbage, canola, radish and other plants; Plasmopara spp., for example, P. viticola (grapevine downy mildew) on vines and P. halstedii on sunflower; Podosphaera species (powdery mildew) on rosaceous plants, hops, pome fruits and berries, for example, P. leucotricha on apples; Polymyxa species, for example, on cereals, such as barley and wheat (P. graminis) and sugar beet (P. betae) and viral diseases transferred as a result; Pseudocercosporella herpotrichoides (eye spot, teleomorph: Tapesia yallundae) on cereals, for example, wheat or barley; Pseudoperonospora (downy mildew) on various plants, for example, P. cubensis on pumpkin or P. humili on hop; Pseudopezicula tracheiphila (rubella of grape leaves, anamorph: Phialophora) on vines; Puccinia species (rust) on various plants, for example, P. triticina (brown or leaf rust), P. striiformis (streaking or yellow rust), P. hordei (dwarf rust), P. graminis (stem or black rust) or P recondita (brown or leaf rust) on cereals, such as, for example, wheat, barley or rye, P. kuehnii (orange rust) on sugarcane and P. asparagi on asparagus; Pyrenophora (anamorph: Drechslera) tritici-repentis (pyrenophoresis) on wheat or P. teres (net blotch) on barley; Pyricularia species, for example, P. oryzae (teleomorph: Magnaporthe grisea, rice blast disease) on rice and P. grisea on turf and cereals; Pythium species (black leg) on turf, rice, corn, wheat, cotton, rape, sunflower, soybeans, sugar beets, vegetables and other plants (for example, P. ultimum or P. aphanidermatum); Ramularia species, for example, R. collo-cygni (Ramular black spot, physiological black spot) on barley and R. beticola on sugar beet; Rhizoctonia species on cotton, rice, potatoes, turf, corn, rapeseed, tomatoes, sugar beets, vegetables and other plants, for example, R. solani (root and stem rot) on soybeans, R. solani (rhizoctoniosis of stalks and sheaths) on rice or R. cerealis (rhizoctoniosis) on wheat or barley; Rhizopus stolonifer (black mold, soft rot) on strawberries, carrots, cabbage, vines and tomatoes; Rhynchosporium secalis (rhinosporosny burn) on barley, rye and triticale; Sarocladium oryzae and S. attenuatum (vaginal rot) on rice; Sclerotinia species (stem rot or white rot) on vegetable crops and field crops such as rapeseed, sunflower (for example, S. sclerotiorum) and soybeans (for example, S. rolfsii or S. sclerotiorum); Septoria species on various plants, for example, S. glycines (brown spot) on soybeans, S. tritici (septorium spot) on wheat and S. (syn. Stagonospora) nodorum (stagon-bearing spot) on cereals; Uncinula necator (syn. Erysiphe) (powdery mildew, anamorph: Oidium tuckeri) on vines; Setospaeria species (leaf spot) on corn (for example, S. turcicum, syn. Helminthosporium turcicum) and turf; Sphacelotheca species (smut) on corn, (for example,

S. reiliana: smut), sorghum and sugar cane; Sphaerotheca fuliginea (powdery mildew) on pumpkin; Spongospora subterranea (powdery scab) on potatoes and consequently viral diseases; Stagonospora cereal species, for example, S. nodorum (stagon-spore spot, teleomorph: Leptosphaeria [syn. Phaeosphaeria] nodorum) on wheat; Synchytrium endobioticum on potatoes (potato cancer); Taphrina species, for example, T. deformans (leaf curl) on peaches and

T. pruni (plum pockets) on plums; Thielaviopsis species (black root rot) on tobacco, pome fruits, vegetables, soybeans and cotton, for example, T. basicola (syn. Chalara elegans); Tilletia species (solid or stinking smut) on cereals, such as, for example, T. tritici (syn. T. caries, common smut of wheat) and T. controversa (dwarf smut) on wheat; Typhula incarnata (gray snow mold) on barley or wheat; Urocystis species, for example, U. occulta (stem smut) on rye; Uromyces species (rust) on vegetables, such as legumes (for example, U. appendiculatus, syn. U. phaseoli) and sugar beets (for example, U. betae); Ustilago spp. (Loose smut) on cereals (for example, U. nuda and U. avaenae), maize (for example, U. maydis: bubble smut) and sugarcane; Venturia species (scab) on apples (for example, V. inaequalis) and pears; and Verticillium species (wilt) on various plants, such as fruits and ornamental plants, vines, berries, vegetables and field crops, such as V. dahliae on strawberries, rape, potatoes and tomatoes.

The compositions are also suitable for controlling harmful fungi in protecting stocks or harvested crops and in protecting materials. The concept of protecting materials covers the protection of technical and non-living

- 314 030875 materials, such as, for example, adhesives, adhesives, wood, paper and cardboard, textiles, leather, dye dispersions, synthetic materials, coolants, fibers and fabrics, from damage and destruction by harmful microorganisms such like mushrooms and bacteria. In the protection of wood and materials, in particular, the following harmful fungi are taken into account: ascomycetes, such as Ophiostoma spp., Ceratocystis spp., Aureobasidium pullulans, Sclerophoma spp., Chaetomium spp., Humicola spp., Petriella spp., Trichurus spp .; basidiomycetes, such as Coniophora spp., Coriolus spp., Gloeophyllum spp., Lentinus spp., Pleurotus spp., Poria spp., Serpula spp. and Tyromyces spp., deuteromycetes, such as Aspergillus spp., Cladosporium spp., Penicillium spp., Trichorma spp., Alternaria spp., Paecilomyces spp. and Zygomycetes such as Mucor spp., and furthermore, in the protection of stored products, the following yeasts: Candida spp. and Saccharomyces cerevisae.

The processing method in accordance with the invention can also be applied in the field of protecting stored products or crops from contamination by fungi and microorganisms. In accordance with the present invention, the concept of stored products should be understood as natural substances of plant or animal origin and their processed forms, which were taken from the natural life cycle and which require long-term protection. Stored products derived from crops, such as plants or parts thereof, such as stems, leaves, tubers, seeds, fruits or grains, can be protected in a freshly harvested state or in a treated form, such as pre-dried, moistened, crushed Ground, pressed or toasted, this process is also known as post-harvest treatment. Also under the concept of stored products is timber, either in the form of raw timber, such as construction timber, electrical poles and barriers, or in the form of finished products, such as furniture or objects made of wood. Stored products of animal origin are leather raw materials, leather, fur, wool, etc. Combinations in accordance with the present invention can prevent adverse effects such as decay, discoloration or mold. Preferably, the stored products are natural substances of plant origin and their processed forms, more preferably fruits and their processed forms, such as apples, stone fruits, berries and citrus fruits, and their processed forms.

The compositions can be used to improve plant viability. The invention also relates to a method for improving the viability of a plant by treating the plant, its propagation material and / or the place where the plant grows or should grow with an effective amount of the components of the compositions according to the invention or the compositions according to the invention.

The concept of plant vitality should be understood as the state of the plant and / or its products, which is determined by various indicators separately or in combination with each other, such as, for example, yield (for example, increased biomass and / or increased content of valuable components), plant power ( , increased plant growth and / or greener leaves (greening effect), quality (eg, increased content or composition of certain components), and resistance to abiotic and / or biotic stress. The above indicators for one state of plant vitality may be interdependent or may flow from each other.

The compounds of formula I can be in various crystalline modifications, the biological activity of which may differ. Compositions containing such modifications of compounds I are likewise an object of the present invention.

The compositions are applied by treating harmful fungi or to be protected from the defeat by fungi of plants, plant propagation materials, such as seeds, soil, surfaces, materials or premises with a fungicidally effective amount of active ingredients. The application can occur both before and after the infection by fungi of plants, plant propagation materials, such as seeds, soil, surfaces, materials or premises.

Plant propagation materials can be treated prophylactically by the components of the compositions according to the invention, and accordingly the compositions according to the invention, either during or before planting or transplanting.

The invention also relates to agrochemical compositions containing the auxiliary substance and the components corresponding to the invention or the composition according to the invention.

The agrochemical composition contains a fungicidally effective amount of the components of the compositions according to the invention or the composition according to the invention. The term “effective amount” means an amount of a composition or components that is sufficient to combat harmful fungi on cultivated plants or to protect materials and does not cause significant damage to the treated plants. Such an amount can vary over a wide range and depends on many factors, such as, for example, the type of fungus that is being controlled, the appropriate cultivated plant or material to be treated, the climatic conditions and the specific compound I used.

- 315 030875

The components of the compositions according to the invention or the compositions according to the invention, their N-oxides and salts can be converted into the usual types of agrochemical compositions, for example, solutions, emulsions, suspensions, fine powders, powders, pastes, granules, pressed products, capsules and mixtures thereof. Examples of types of compositions are suspensions (for example, SC, OD, FS), emulsifiable concentrates (for example, EC), emulsions (for example, EW, EO, ES, ME), capsules (for example, CS, ZC), pastes, lozenges, wettable powders or fine powders (for example, WP, SP, WS, DP, DS), compressed products (for example, BR, TV, DT), granules (for example, WG, SG, GR, FG, GG, MG), insecticidal products ( for example, LN), as well as gel formulations for the treatment of plant propagation material, such as seeds (for example, GF). These and other types of compositions are defined in the Technical Monograph No. 2, 6th ed. May 2008, CropLife International.

The compositions are prepared in a known manner as described in Mollet and Grube-mann, Formulation technology, Wiley VCH, Weinheim, 2001; or Knowles, New Developments in crop protection, Agrow Reports DS243, T & F Informa, London, 2005.

Suitable excipients are solvents, liquid carriers, solid carriers or fillers, surfactants, dispersants, emulsifiers, wetting agents, adjuvants, solubilizers, penetrants, protective colloids, adhesion promoters, thickeners, humectants, repellents, attractants, adhesion promoters, thickeners, humectants, repellents, attractants, adhesion promoters, thickeners, humectants, repellents, attractants, adhesion promoters, thickeners, humectants, repellents, attractants, adhesion promoters, thickeners, humectants, repellents, attractants, adhesion promoters, thickeners, humectants, repellents, attractants, adhesion promoters, thickeners, humectants, repellents eating stimulants, compatibilizers, bactericides, antifreezes, antifoams, colorants, tackifiers and binders.

Suitable solvents and liquid carriers are water and organic solvents, such as medium to high boiling mineral oil fractions, such as kerosene, diesel oil; oils of vegetable or animal origin, aliphatic, cyclic or aromatic hydrocarbons, for example, toluene, paraffin, tetrahydronaphthalene, alkylated naphthalenes; alcohols, for example, ethanol, propanol, butanol, benzyl alcohol, cyclohexanol; glycols; DMSO; ketones, for example, cyclohexanone; esters, for example, lactates, carbonates, fatty acid esters, gamma-butyrolactone; fatty acid; phosphonates; amines; amides, for example, Nmethylpyrrolidone, fatty acid dimethylamides; and mixtures thereof.

Suitable solid carriers or fillers are mineral lands, for example, silicates, silica gels, talc, kaolins, limestone, lime, chalk, bolus, loess, clays, dolomite, diatomaceous earth, bentonite, calcium sulfate, magnesium sulfate, magnesium oxide; polysaccharide powders, for example cellulose, starch; fertilizers, for example, ammonium sulfate, ammonium phosphate, ammonium nitrate, urea; products of plant origin, such as cereal flour, bark flour, wood flour, nutshell flour, and mixtures thereof.

Suitable surfactants are surface-active compounds, such as anionic, cationic, non-ionic and amphoteric surfactants, block polymers, polyelectrolytes, and mixtures thereof. Such surfactants can be used as an emulsifier, dispersant, solubilizer, wetting agent, penetration enhancer, protective colloid, or adjuvant. Examples of surfactants are given in McCutcheon's, Volume 1: Emulsifiers & Detergents, McCutcheon's Directories, Glen Rock, USA, 2008 (International or North American Ed.).

Suitable anionic surfactants are alkali, alkaline earth or ammonium salts of sulfonates, sulfates, phosphates, carboxylates, and mixtures thereof. The examples of the rest of the furnaces in the rest of the furnaces are optics in the rest of the furnaces, the optics of the rest of the experts in the oops of the rest of the opt-ins in the rest of the opt-ins with the rest of the opt-ins in the rest of the oops; Examples of sulfates are fatty acid sulfates and oils, ethoxylated alkyl phenols, alcohols, ethoxylated alcohols or fatty acid esters. Examples of phosphates are phosphate esters. Examples of carboxylates are alkyl carboxylates and carboxylated alcohol or alkylphenol ethoxylates.

Suitable nonionic surfactants are alkoxylates, N-substituted fatty acid amides, aminoxides, esters, sugar-based surfactants, polymeric surfactants, and mixtures thereof. Examples of alkoxylates are compounds, such as alcohols, alkylphenols, amines, amides, arylphenols, fatty acids or fatty acid esters, which have been alkoxylated with from 1 to 50 equivalents. Ethylene oxide and / or propylene oxide, preferably ethylene oxide, may be used for alkoxylation. Examples of N-substituted fatty acid amides are fatty acid glucamides or fatty acid alkanolamides. Examples of esters are fatty acid esters, glycerol esters or monoglycerides. Examples of sugar-based surfactants are sorbitans, sucrose and glucose esters, or alkyl polyglucosides. Examples of polymeric surfactants are vinylpyrrolidone homo- or copolymers, vinyl

- 316 030875 lovy alcohols or vinyl acetate.

Suitable cationic surfactants are quaternary surfactants, for example, quaternary ammonium compounds with one or two hydrophobic groups or salts of long-chain primary amines. Suitable amphoteric surfactants are alkyl betaines and imidazolines. Suitable block polymers are block polymers of type A-B or A-B-A, including blocks of polyethylene oxide and polypropylene oxide or type A-B-C, including alkanol, polyethylene oxide and polypropylene oxide.

Suitable adjuvants are compounds that themselves have very little or even no pesticidal activity, and that improve the biological efficacy of the target compounds I. Examples are surface-active substances, mineral or vegetable oils and other excipients. Additional examples are given in Knowles, Adjuvants and additives, Agrow Reports DS256, T & F Informa UK, 2006, chapter 5.

Suitable thickeners are polysaccharides (for example, xanthan gum, carboxymethyl cellulose), inorganic clays (organically modified or unmodified), polycarboxylates and silicates.

Suitable bactericides are bronopol and isothiazolinone derivatives, such as alkylisothiazolinones and benzisothiazolinones.

Ethylene glycol, propylene glycol, urea and glycerin are suitable antifreezes.

Suitable antifoams are silicones, long chain alcohols and salts of fatty acids.

Suitable dyes (for example, red, blue or green) are water-soluble pigments and water-soluble dyes. Examples are inorganic dyes (for example, iron oxide, titanium oxide, iron hexacyanoferrate) and organic dyes (for example, alizarin, azo dyes and phthalocyanine dyes).

Suitable tackifiers or binders are polyvinyl pyrrolidones, polyvinyl acetates, polyvinyl alcohols, polyacrylates, biological or synthetic waxes and cellulose ethers.

Examples of types of compositions and their preparation are (and the active substances mean the corresponding components (= active substances) of the composition in accordance with the invention):

I) Water soluble concentrates (SL, LS).

10-60% by weight of active ingredients and 5-15% by weight of a wetting agent (for example, alcohol alkoxylates) are dissolved in water and / or in a water-soluble solvent (for example, alcohols) up to 100% by weight. When diluted with water, the active substance dissolves.

II) Dispersible Concentrates (DC).

5-25% by weight of the active ingredients and 1-10% by weight of a dispersant (for example, polyvinylpyrrolidone) are dissolved in an organic solvent (for example, cyclohexanone) to 100% by weight. When diluted with water, a dispersion is obtained.

Iii) Emulsifiable concentrates (EU).

15-70% by weight of the active ingredients and 5-10% by weight of emulsifiers (for example, calcium dodecylbenzenesulfonate and castor oil ethoxylate) are dissolved in water-insoluble organic solvent (for example, an aromatic hydrocarbon) to 100% by weight. When diluted with water, an emulsion is obtained.

Iv) Emulsions (EW, EO, ES).

5-40% by weight of active ingredients and 1-10% by weight of emulsifiers (for example, calcium dodecylbenzenesulfonate and castor oil ethoxylate) are dissolved in 20-40% by weight of water-insoluble organic solvent (for example, an aromatic hydrocarbon). This mixture is added to water to 100 wt.% Using an emulsifying device and adjusted to a homogeneous emulsion. When diluted with water, an emulsion is obtained.

V) Suspensions (SC, OD, FS).

In a ball mill with a stirrer, ground to a thin suspension of the active substance 20-60 wt.% Active ingredients with the addition of 2-10 wt.% Dispersing agents and wetting agents (for example, sodium lignosulfonate and alcohol ethoxylate), 0.1-2 wt.% Thickener (for example, xanthan gum) and water up to 100 wt.%. When diluted with water, a stable suspension of the active ingredient is formed. For a composition of the FS type, up to 40% by weight of a binder (eg, polyvinyl alcohol) is added.

VI) Water Dispersible and Water Soluble Granules (WG, SG).

50-80% by weight of the active ingredients are finely ground by adding dispersants and wetting agents (for example, sodium lignosulfonate and alcohol ethoxylate) to 100% by weight and using technical devices (for example, an extrusion device, a spray tower, a fluidized bed) are dispersed in water or water soluble granules. When diluted with water, a stable dispersion or solution of the active substance is formed.

VII) Dispersible in water and water-soluble powders (WP, SP, WS).

50-80 wt.% Active ingredients are ground in a rotor-stator mill with the addition of I

- 317 030875 wt.% Dispersants (for example, sodium lignosulphonate), 1-3 wt.% Wetting agents (for example, alcohol ethoxylate) and solid carrier (for example, silica gel) up to 100 wt.%. When diluted with water, a stable dispersion or solution of the active substance is formed.

VIII) Gel (GW, GF).

In a ball mill with a mixer, grind to a thin suspension of the active substance 5-25 wt.% Active ingredients with the addition of 3-10 wt.% Dispersant (for example, sodium lignosulfonate), I-5 wt.% Thickener (for example, carboxymethylcellulose) and water to 100 wt.%. When diluted with water, a stable suspension of the active ingredient is formed.

Ix) Microemulsion (ME).

5-20% by weight of active ingredients add up to 5-30% by weight of a mixture of organic solvents (for example, fatty acid dimethylamide and cyclohexanone), 10-25% by weight of a mixture of surfactants (for example, alcohol ethoxylate and arylphenol ethoxylate), and water up to 100 wt.%. This mixture is stirred for 1 hour to spontaneously obtain a thermodynamically stable microemulsion.

X) Microcapsules (CS).

An oil phase containing 5-50 wt.% Active ingredients, 0-40 wt.% Water-insoluble organic solvent (for example, an aromatic hydrocarbon), 2-15 wt.% Acrylic monomers (for example, methyl methacrylate, methacrylic acid and di- or triacrylate) is dispersed in an aqueous solution of a protective colloid (for example, polyvinyl alcohol). Radical polymerization initiated by a radical initiator leads to the formation of poly (meth) acrylate microcapsules. Alternatively, an oil phase containing 5-50 wt.% Compound I in accordance with the invention, 0-40 wt.% Water-insoluble organic solvent (for example, an aromatic hydrocarbon), and isocyanate monomer (for example, diphenylmethane-4,4'- diisocyanate) is dispersed in an aqueous solution of a protective colloid (for example, polyvinyl alcohol). The addition of a polyamine (for example, hexamethylenediamine) leads to the formation of polyurea microcapsules. The amount of monomers up to 1-10 wt.%. Mass% refers to the total CS composition.

XI) Fine Powders (DP, DS).

1-10% by weight of the active ingredients are finely ground and thoroughly mixed with a solid carrier (for example, finely divided kaolin) to 100% by weight.

XII) Granules (GR, FG).

0.5-30% by weight of the active ingredients are finely ground and bound to a solid carrier (for example, silicate) to 100% by weight. Granulation is achieved by extrusion, spray drying, or fluidized bed.

XIII) Ultra-low volume liquids (UL).

1-50 wt.% The active substances are dissolved in an organic solvent (for example, an aromatic hydrocarbon) to 100 wt.%.

The types of compositions I) to XI) may optionally contain other auxiliary substances, such as 0.1-1% by weight of bactericides, 5-15% by weight of antifreeze, 0.1-1% by weight of antifoams and 0.1- 1 wt.% Dyes.

Agrochemical compositions generally contain between 0.01 and 95% by weight, preferably between 0.1 and 90% by weight, and in particular between 0.5 and 75% by weight of the active ingredient. The active ingredients are used with a purity of from 90% to 100%, preferably from 95% to 100% (by NMR spectrum).

For the treatment of materials for the propagation of plants, especially seeds, usually used are seed treatment solutions (LS), suspoemulsions (SE), flowable concentrates (FS), powders for dry treatment (DS), dispersible powders for water suspension (WS) , water soluble powders (SS), emulsions (ES), emulsifiable concentrates (EC) and gels (GF). The respective compositions, after two to tenfold dilution, give concentrations of the active substance from 0.01 to 60% by weight, preferably from 0.1 to 40% by weight, in ready-to-use preparations. Application can be carried out both before and during sowing. Methods for applying or processing compound I or, respectively, its compositions on plant propagation material, especially seeds, include coating, coating, coating, dusting, soaking, and methods for furrowing the propagation material. Preferably, compound I or its compositions are applied to the plant propagation material in such a way that germination is not caused, for example, by seed dressing, coating, coating and pollination.

If used for plant protection, the amount of active substances used, depending on the type of desired effect, is from 0.001 to 2 kg per 1 ha, preferably from 0.005 to 2 kg per 1 ha, more preferably from 0.05 to 0.9 kg per 1 ha, and in particular from 0.1 to 0.75 kg per 1 ha.

When processing plant propagation materials, such as seeds, for example, by dusting, coating or impregnating seeds, the necessary quantities of active ingredient are from 0.1 to 10 kg of active ingredients per 100 kg of seeds, in particular from 0.1 to 1000 g, preferably from 1 to 1000 g, more preferably from 1 to 100 g and most preferably from 5 to 100 g, per 100 kilograms of plant propagation material (preferably seeds).

- 318 030875

If used to protect materials or stored products, the amount of active substance used depends on the type of application and the desired effect. Typically, the amounts used to protect materials are, for example, from 0.001 g to 2 kg, preferably from 0.005 g to 1 kg, of active substances per cubic meter of the processed material.

Different types of oils, wetting agents, adjuvants, fertilizers or micronutrients, and other pesticides (for example, herbicides, insecticides) can be added to active substances or to compositions containing them in the form of a premix or, if necessary, only just before use (tank mix). , fungicides, growth regulators, safeners). Such agents can be mixed with compositions in accordance with the invention in a weight ratio of from 1: 100 to 100: 1, preferably from 1:10 to 10: 1.

Typically, a user applies a composition in accordance with the invention from a pre-dosing device, a knapsack sprayer, a spray tank, a spray plane, or an irrigation system. Usually, the agrochemical composition is diluted with water, buffer and / or other auxiliary substances to the desired concentration of application, and thus a ready-to-use spraying liquid or agrochemical composition according to the invention is obtained. As a rule, from 20 to 2000 liters are used, preferably from 50 to 400 liters of ready-to-use spraying liquid per hectare of agricultural land.

In accordance with one embodiment, the individual components of the composition in accordance with the invention, such as parts of a kit or parts of a composition, can be mixed by the user independently in a spray tank and, in addition, if necessary, other auxiliary substances can be added.

In compositions, the ratios of components are sometimes preferably chosen in such a way as to obtain a synergistic effect.

The concept of a synergistic effect should be understood as specifically referring to the concept defined by the Colby formula (Colby, SR, Calculating and antagonistic responses of herbalism combinations, Weeds, C, c. 20-22, 1967).

The concept of a synergistic effect should also be understood as specifically referring to the concept defined by the application of the Tammes method, (Tammes, PML, Isoboles, a graphic representation of synergism in pesticides, Netherl. J. Plant Pathol. 70, 1964).

Components can be applied separately or already partially or completely mixed with each other to prepare the composition in accordance with the invention. They may also be packaged and used as a combination, such as a set of parts.

The fungicidal action of the composition according to the invention may be indicated by the tests described below.

The active compounds, separately or together, are prepared in the form of a stock solution containing 25 mg of the active compound, which is made up to 10 ml using a mixture of acetone and / or DMSO and an emulsifier Uniperol® EL (wetting agent with an emulsifying and dispersing action based on ethoxylated alkylphenol) in a volume ratio of solvent / emulsifier 99: 1. The mixture is then made up to 100 ml with water. This mother liquor is diluted with the solvent / emulsifier / water mixture described to the concentration of the active compound indicated below.

The visually determined percentage of diseased leaf surfaces was converted to degrees of effectiveness in% of untreated controls.

Efficiency (E) is calculated as shown below using the Abbott formula:

where α corresponds to the defeat of the treated plants by the fungi in% and β corresponds to the defeat of the untreated (control) plants by the fungi in%

The expected degrees of effectiveness of combinations of the active compounds were determined using the Colby formula (Colby, SR Calculating synergistic and antagonistic responses of herbicide Combinations, Weeds, 15, 20-22, 1967) and compared with the observed degrees of effectiveness.

Colby's formula:

where E is the expected efficiency, expressed in% of the untreated control, when using a mixture of the active compounds A and B with concentrations of a and b;

x efficacy, expressed in% of the untreated control, when using active compound A with concentration a;

y efficiency, expressed in% of the untreated control, when applying the active compound B with a concentration of b.

Microtests

The active compounds were prepared separately or together as a stock solution with a concentration of 10,000 parts. per million (ppm) in DMSO.

The product orysastrobin was used as a standard preparation and diluted with water to the indicated

- 319 030875 active compound concentrations.

The stock solutions were mixed according to the ratio, pipetted into a microtiter plate (MTP) and diluted with water to the indicated concentrations. A spore suspension of the corresponding pathogen was then added in an appropriate nutrient medium. The plates were placed in a water-saturated chamber at a temperature of 18 ° C. Using an MPS absorber, it was measured at 405 nm on the 7th day after inoculation.

The measured parameters were compared with the growth of the control variants without active compounds (100%) and the zero value without fungi and without active compounds to determine the relative growth in% of pathogens in the corresponding active compounds. These percentages converted to degrees of efficiency.

Expected efficacy levels of active compound mixtures were determined using the Colby formula [RS Colby, Calculating synergistic and antagonistic responses of herbicide combinations, Weeds 15, 20-22 (1967)] and compared with the observed degrees of effectiveness.

I. Synthesis of components I.

With proper modification of the starting compounds, the procedures shown in the synthesis examples below were used to obtain additional compounds I.

Example 1. Preparation of 2- [4- (4-chlorophenoxy) -2-trifluoromethylphenyl] -1- [1,2,4] triazol-1-yl-propan-2ol (compound I-3).

Stage 1. 4-Fluoro-2- (trifluoromethyl) acetophenone (35 g, 170 mmol), 4-chlorophenol (21.8 g, 170 mmol), potassium carbonate (28.1 g, 203 mmol) and DMF (284 g, 300 ml) stirred together at about 115 ° C for about 5 hours. After cooling, the mixture was added to the brine solution and extracted three times with MTBE. The organic phases were combined, washed twice with 10% aqueous solution of LiCl and dried. Evaporation of the solvents gave an intermediate 1- [4- (4-chlorophenoxy) 2-trifluoromethylphenyl] ethanone (51.4 g, 87%; HPLC By = 3.721 min * (conditions A, see below)).

Stage 2. DMSO (154 g, 140 ml, 1.97 mol) was added to a mixture of sodium hydride (0.831 g, 33 mmol) in THF (53 g, 60 ml) and cooled to approximately 5 ° C. Trimethylsulfonic acid (ox) onium iodide (6.42 g, 31.5 mmol) in DMSO (80 ml) was then added dropwise, and the mixture was stirred at approximately 5 ° C for an additional hour. Then intermediate 1- [4- (4-chlorophenoxy) -2 trifluoromethylphenyl] ethanone (5.0 g, 14.3 mol) in DMSO (40 ml) was added dropwise in about 5 minutes. After that, the mixture was stirred for 15 minutes, quenched with a saturated solution of ammonium chloride (150 ml) and extracted three times with MTBE. The organic phases were combined, washed with water and dried. Evaporation of the solvent gave 2- [4- (4-chlorophenoxy) -2-trifluoromethylphenyl] -2-methyloxyrane as a yellow oil (4.4 g, 89%, HPLC By = 3.839 min * (conditions A, see below)).

Stage 3. A mixture of 2- [4- (4-chlorophenoxy) -2-trifluoromethylphenyl] -2-methyloxrane (1.92 g, 4.96 mmol), 1,2,4-triazole (1.715 g, 24.8 mmol), NaOH (0.496 g, 12.41 mmol) and N-methylpyrrolidone (48 ml) was stirred at approximately 110 ° C for approximately 1 hour, then for another 4 hours at approximately 130 ° C. After cooling to room temperature, a saturated solution of ammonium chloride was added, and the organic phases were extracted three times with MTBE. The organic phases were combined, washed twice with a 10% LiCl solution and dried. Evaporation of the solvents followed by precipitation from diisopropyl ether gave the final product 2- [4- (4-chlorophenoxy) -2 trifluoromethylphenyl] -1- [1,2,4] triazol-1-yl-propan-2-ol as a white solid colors (1.55 g, 75%, mp. 121-122 ° C; HPLC By = 3.196 min * (conditions A, see below)).

Example 2. Preparation of 2- [4- (4-chlorophenoxy) -2-trifluoromethylphenyl] -1 [1,2,4] triazol-1-yl-butane-2ol (compound I-7)

Step 1. Bromine (29.6 g, 185 mmol) was added dropwise over 3 minutes to a solution of the 1- [4- (4 chlorophenoxy) -2-trifluoromethylphenyl] ethanone intermediate of stage 1 from example 1, (61.4 g, 185 mmol), in diethyl ether (700 ml). The mixture was stirred at room temperature for about 90 minutes, after which a mixture of ice water (1: 1) and saturated sodium bicarbonate solution (300 ml) was slowly added with stirring until the pH reached from 7 to 8. The organic phases were extracted twice using MTBE and washed with LiCl solution.

Drying and evaporation of the solvents gave the intermediate 2-bromo-1- [4- (4 chlorophenoxy) -2-trifluoromethylphenyl] ethanone as a brown oil (76 g, 83%, HPLC By = 3.196 min * (conditions A, see below) ).

Stage 2. 1,2,4-Triazole (3.76 g, 53 mmol) was added slowly and in portions to a mixture of sodium hydride (1.28 g, 53 mmol) in THF (150 ml) and the mixture was stirred at room temperature for about 30 minutes . Intermediate 2-bromo-1- [4- (4 chlorophenoxy) -2-trifluoromethylphenyl] ethanone (20.0 g, 40.7 mmol) in THF (100 ml) was added dropwise to this mixture and stirred at room temperature for about 150 minutes. The reaction mixture was cooled to approximately 10 ° C and slowly added to the mixture from ice water and a saturated solution of ammonium chloride, and the organic components were extracted three times with ethyl acetate. The organic phases were combined, dried and the solvents evaporated. Recrystallization from diisopropyl ether gave intermediate 1- [4- (4-chlorophenoxy) -2-trifluoromethylphenyl] -2- [1,2,4] triazol-1-yl-ethanone as

- 320 030875 white solids (14.5 g, 84%; HPLC By = 3.225 min * (condition A, see below)).

Stage 3. Magnesium bromide diethyl ether (2.65 g, 10.3 mmol) was added to the solution from 1- [4- (4 chlorophenoxy) -2-trifluoromethylphenyl] -2- [1,2,4] triazol-1-yl-ethanone (2.0 g , 5.1 mmol) in dichloromethane (DCM, 20 ml), and the mixture was stirred at room temperature for 90 minutes. This mixture was then cooled to approximately -10.degree. C. and ethylmagnesium bromide (10.3 mL of a 1 M solution in THF, 10.3 mmol) was added dropwise. After stirring for about 2 hours, the mixture was allowed to warm to room temperature and then quenched by the addition of a saturated solution of ammonium chloride. The organic components were extracted three times with DCM, the organic phases were combined, washed once more with a saturated solution of ammonium chloride, dried and the solvents were evaporated. Addition of diisopropyl ether led to precipitation of unreacted starting material, which was filtered. The filtrate was then purified using reverse phase chromatography to give the final product 2- [4- (4-chlorophenoxy) -2-trifluoromethylphenyl] -1- [1,2,4] triazol-1-ylbutan-2-ol as light brown solid (130 mg, 5.8%); HPLC By = 3.366 min * (conditions A, see below); HPLC By = 1.21 min, mass = 412 ** (for conditions B, see below).

Example 3. Preparation of 1- [2- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -2-methoxypropyl] -1,2,4 triazole (compound I-9).

To a solution of 2- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -1- (1,2,4-triazol-1-yl) propan-2-ol (33.35 g, 83 mmol) in 400 ml of THF were added sodium hydride (2.54 g, 100.5 mmol) at room temperature. The reaction mixture was then stirred for 30 minutes, followed by the addition of methyl iodide (14.24 g, 100.3 mmol) and stirred at 90 ° C for 2 hours. After the addition of aq. sodium chloride solution, the mixture was extracted with dichloromethane, dried, evaporated. The crude residue was purified by recrystallization in heptane / ethyl acetate (1: 2) to obtain the title compound as a colorless solid (34.0 g, 98%; HPLC-MS By = 1.26 min; weight = 412 ** (conditions B see below )).

Example 4. Obtaining 2- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -1- (1,2,4-triazol-1-yl) pent-3in-2-ol (compound I-14 ).

Stage 1.

1-Bromo-4-fluoro-2- (trifluoromethyl) benzene (2.04 g, 15.9 mmol) was mixed with potassium carbonate (4.18 g) in dimethylformamide and the reaction mixture was heated to 110 ° C. Then 4-chlorophenol (3.68 g, 15.14 mmol) was added and the resulting mixture was stirred for 5 hours at 110 ° C. After cooling and extraction with water / DCM, the organic layers were washed with an aqueous solution of lithium chloride and then sodium hydroxide, dried, filtered and evaporated to give 3.14 g of 1-bromo-4- (4 chlorophenoxy) -2- (trifluoromethyl) benzene as an oil.

^one H NMR (CDCl ₃ ; 400 MHz) δ (ppm) = 6.80 (d, 1H); 6.95 (d, 2H); 7.35 (d, 2H); 7.55 (d, 1H); 7.80 (s, 1H).

Stage 2.

To a solution of 1-bromo-4- (4-chlorophenoxy) -2- (trifluoromethyl) benzene (100.0 g, 0.28 mol, 1.0 eV.) In 500 ml of THF at room temperature was added dropwise a complex of isopropyl magnesium and lithium chloride (284 ml, 1.3 M in THF) and stirred for 2 hours. Then the mixture was added dropwise at room temperature to a solution of acetyl chloride (29.0 g, 0.37 mmol) in 500 ml of THV. The resulting reaction mixture was then stirred for 150 minutes and quenched. ammonium chloride solution. After extraction with water / MTBE, the organic solvents were dried and evaporated to give 96.6 g of 1- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] ethanone as a yellowish oil.

^one H NMR (CDCl ₃ ; 400 MHz) δ (ppm) = 2.6 (s, 3H); 7.0 (d, 2H); 7.10 (d, 1H); 7.30 (s, 1H); 7.37 (d, 2H); 7.50 (d, 1H).

Stage 3.

Bromine (29.6 g, 185 mmol) was added dropwise over 3 minutes to a solution of 1- [4- (4-chlorophenoxy) 2-trifluoromethylphenyl] ethanone (61.4 g, 185 mmol) in diethyl ether (700 ml). The mixture was stirred at room temperature for approximately 90 minutes, after which a mixture of ice water (1 L) and a saturated solution of sodium bicarbonate (300 ml) was slowly added with stirring until the pH reached 7 to 8. The organic phases were extracted twice with MTBE and washed with a solution of LiCl. Drying and evaporation of the solvents gave the intermediate 2-bromo-1 [4 (4-chlorophenoxy) -2-trifluoromethylphenyl] ethanone as a brown oil (76 g, 83%).

^one H NMR (CDCl ₃ ; 400 MHz) δ (ppm) = 4.35 (s, 2H); 7.0 (d, 2H); 7.12 (d, 1H); 7.34 (s, 1H); 7.38 (d, 2H); 7.55 (d, 1H).

Stage 4.

1,2,4-Triazole (3.76 g, 53 mmol) was added slowly and in portions to a mixture of sodium hydride (1.28 g, 53 mmol) in THF (150 ml), and the mixture was stirred at room temperature for about 30 minutes. To this mixture was added dropwise 2-bromo-1- [4- (4-chlorophenoxy) -2-trifluoromethylphenyl] ethanone (20.0 g, 40.7 mmol) in THF (100 ml) and stirred at room temperature for approximately

- 321 030875 150 min. The reaction mixture was cooled to approximately 10 ° C and added slowly to a mixture of ice water and a saturated solution of ammonium chloride, and the organic components were extracted three times with ethyl acetate. The organic phases were combined, dried and the solvents evaporated. Recrystallization from diisopropyl ether gave intermediate 1- [4- (4-chlorophenoxy) -2 trifluoromethylphenyl] -2- [1,2,4] triazol-1-yl-ethanone as a white solid (14.5 g, 84%) .

'11 NMR (CDCl ₃ ; 400 MHz) δ (ppm) = 5.42 (s, 2H); 7.05 (d, 2H); 7.15 (d, 1H); 7.38 (s, 1H); 7.42 (d, 2H); 7.60 (d, 1H); 8.0 (s, 1H); 8.25 (s, 1H).

Stage 5.

1- [4- (4-Chlorophenoxy) -2- (trifluoromethyl) phenyl] -2- (1,2,4-triazol-1-yl) ethanone (0.5 g, 1.31 mmol) was dissolved in THF (5.0 ml) with laCl solution ₃ -2LiCl (2.4 ml, 0.6 M in THF) and stirred at room temperature for 30 minutes. The resulting solution was added dropwise to 1-propynyl magnesium bromide (1.5 ml, 0.5 M in THF) at room temperature. After 30 minutes at room temperature, the resulting mixture was quenched with 10% aqueous HCl solution and extracted with MTBE. The organic phase was washed with brine, dried and evaporated to give 2- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -1- (1,2,4-triazol-1-yl) after purification on reverse-phase chromatography. ) pent-3-yn-2-ol as a solid (25 mg, HPLC-MS By = 1.21 min, mass = 422 ** (conditions B, see below), etc. = 137 ° С).

Example 5. Obtaining 1- [2- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -2-methoxy-butyl] -1,2,4 triazole (compound I-13).

To a solution of 2- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -1- (1,2,4-triazol-1-yl) butan-2-ol (4.0 g, 9.71 mmol) in 20 ml of THF were added sodium hydride (294 mg, 11.64 mmol) at room temperature. Then the reaction mixture was stirred for 30 minutes. With the subsequent addition of methyl iodide (1.67 g, 11.78 mmol) and stirred at room temperature for 10 hours. After the addition of aq. sodium chloride solution, the mixture was extracted with dichloromethane, dried, evaporated. The crude residue was purified by flash chromatography on silica gel to give the title compound as a colorless oil (2.42 g, 54%; By-MS-HPLC = 1.32 min; weight = 426 ** (for conditions B see below)).

Example 6. Obtaining 2- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -3-methyl-1- (1,2,4-triazole-1yl) butan-2-ol (compound I-5 ).

Stage 1.

To a solution of 1-bromo-4- (4-chlorophenoxy) -2- (trifluoromethyl) benzene (450.0 g, 1.15 mol) in 500 ml of THF was added dropwise to a complex of isopropyl magnesium and lithium chloride (1.152 L, 1.3 M in THF ) at room temperature and stirred for 1 hour. Then the reaction mixture was added dropwise over 1.5 hours at 10 ° C to a solution of isopropylcarbonyl chloride (187.9 g, 1.73 mol), LiCl (3.30 g, 0.08 mol), AlCb ( 4.61 g, 0.03 mol), CuCl (3.42 g, 0.03 mol) in THF (4 l). After 1 h at room temperature, the resulting mixture was quenched with an aqueous solution of ammonium chloride at 10 ° C and extracted with MTBE. The organic phase was washed with an aqueous solution of ammonia, then ammonium chloride, dried and evaporated to obtain after distillation (because = 150-155 ° C, P = 0.25 mbar) I- [4- (4chlorophenoxy) -2- (trifluoromethyl) phenyl ] -2-methylpropan-1-it in the form of a yellowish oil (227.0 g, 52%).

'11 NMR (CDCl ₃ ; 400 MHz) δ (ppm) = 1.20 (d, 6H); 3.20 (m, 1H); 7.0 (d, 2H); 7.10 (d, 1H); 7.34 (s, 1H); 7.38 (d, 2H); 7.41 (d, 1H).

Stage 2.

DMSO (120 ml) was added to a mixture of sodium hydride (4.43 g, 175.24 mmol) in THF (130 ml) and cooled to approximately 5 ° C. Trimethylsulfonium iodide (34.97 g, 167.9 mmol) in DMSO (12 ml) was then added dropwise, and the mixture was stirred at approximately 5 ° C for an additional hour. Then, Intermediate 1- [4- (4-chlorophenoxy) -2 (trifluoromethyl) phenyl] -2-methylpropan-1-one (25.0 g, 72.9 mmol) in DMSO (60 ml) was added dropwise in about 5 minutes. . After that, the mixture was stirred overnight at room temperature, then quenched with a saturated solution of ammonium chloride and extracted three times with MTBE. The organic phases were combined, washed with an aqueous solution of ammonium chloride, filtered and dried. Evaporation of the solvent gave, after purification on silica gel, 2- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -2-isopropyloxyran as a yellowish oil (24.2 g, 84%, HPLC-MS: By = 1.540 min; mass = 356 ** (conditions B, see below)).

Stage 3.

To 2- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -2-isopropyloxyran (173.0 g, 0.41 mol) dissolved in Yumethyl-2-pyrrolidone (1 l) was added at room temperature sodium hydroxide (41.2 g, 1.03 mol) and triazole (145.2 g, 2.06 mol). After that, the mixture was stirred for 12 hours at 125 ° C. Then a solution of ammonium chloride and ice water was added, the mixture was extracted with MTBE and washed with an aqueous solution of lithium chloride. The crude residue was purified by recrystallization (heptane / MTBE, 1: 1) to give 2- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -3-methyl-1- (1,2,4-triazole-1

- 322 030875 (yl) butan-2-ol as a colorless solid (110 g, mp = 114 ° C; HPLC-MS By = 1.27 min; mass = 426 ** (conditions B see below) ).

Example 7. Obtaining 1- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -1-cyclopropyl-2- (1,2,4triazol-1-yl) ethanol (compound I-4).

Stage 1.

To a solution of 1-bromo-4- (4-chlorophenoxy) -2- (trifluoromethyl) benzene (70.0 g, 199 mmol, 1.0 eV.) In 700 ml of THF was added dropwise a complex of isopropyl magnesium and lithium chloride (199.1 ml, 1.3 M in THF) at room temperature and stirred for 2 hours. The reaction mixture was then added dropwise to a solution of cyclopropanecarbonyl chloride (27.05 g, 258 mmol), LiCl (0.5 g, 11.9 mmol), A1C1 ₃ (0.79 g, 5.9 mmol), CuCl (0.59 g, 5.9 mmol) in THF (700 ml). After 30 minutes at room temperature, the mixture was quenched with an aqueous solution of ammonium chloride at 10 ° C and extracted with MTBE. The organic phase was washed with ammonia water, dried and evaporated to give [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] cyclopropylmethanone as a brownish oil (66.8 g).

Ή NMR (CDCl ₃ ; 400 MHz) δ (ppm) = 1.10 (m, 2H); 1.30 (m, 2H); 2.32 (m, 1H); 7.0 (d, 2H); 7.15 (d, 1H); 7.32 (s, 1H); 7.37 (d, 2H); 7.60 (d, 1H).

Stage 2.

To a solution of sodium hydride (10.77 g, 448 mmol) in THF (750 ml) and dry DMSO (250 ml) was added dropwise under argon at 5 ° C a solution of trimethylsulfonium iodide (87.62 g, 429 mmol) in dry DMSO (800 ml ). The mixture was stirred for 1 hour at 5 ° C, followed by the dropwise addition of [4- (4 chlorophenoxy) -2- (trifluoromethyl) phenyl] cyclopropylmethanone (66.5 g, 195 mmol) in DMSO (500 ml). Then, the resulting mixture was heated to room temperature overnight and quenched with an aqueous solution of ammonium chloride and ice water, and then extracted with MTBE. The organic solvents were washed with water, dried and evaporated to give 2- [4- (4-chlorophenoxy) -2 (trifluoromethyl) phenyl] -2-cyclopropyloxyran as an oil (66.0 g).

Ή NMR (CDCl ₃ ; 400 MHz) δ (ppm) = 0.38-0.50 (m, 4H); 1.40 (m, 1H); 2.90-3.0 (dd, 2H); 6.90 (d, 2H); 7.15 (d, 1H); 7.29 (s, 1H); 7.35 (d, 2H); 7.50 (d, 1H).

Stage 3.

To 2- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -2-cyclopropyloxyran (866.0 g, 186 mmol) dissolved in N-methyl-2-pyrrolidone (820 ml) was added sodium hydroxide (18.6 g , 465 mmol) and 1,2,4triazol (64.2 g, 930 mmol) at room temperature. After that, the mixture was stirred for 12 hours at 125 ° C. Then a solution of ammonium chloride and ice water was added, the mixture was extracted with MTBE and washed with an aqueous solution of lithium chloride. The crude residue was purified by flash chromatography on silica gel to give 1- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -1cyclopropyl-2- (1,2,4-triazol-1-yl) ethanol as an oil (64.5 g, HPLC-MS By = 1.24 min; mass = 424 ** (for conditions B, see below).

Additional compounds I, in particular the following were obtained in the same way:

Compound I-11: 1- [2- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -2-cyclopropyl-2-methoxy-ethyl] 1,2,4-triazole; HPLC ** B _at (min): 1.31.

* (Conditions A): HPLC column: RP-18 column (Chromolith Speed ROD from Merck KgaA, Germany), 50 mmx4.6 mm with eluent: acetonitrile + 0.1% trifluoroacetic acid (TFA) / water + 0.1% TFA (gradient from 5:95 to 95: 5 for 5 min at 40 ° C, flow 1.8 ml / min).

** (Conditions B): HPLC method.

Data for the continuation of the table. I:

mobile phase: A: Water + 0.1% TFA, B: acetonitrile; gradient: 5% B to 100% B in 1.5 min; temperature: 60 ° C; MS method: ESI positive; weight per unit area (m / z): 10-700; flow: from 0.8 to 1.0 ml / min for 1.5 min; Column: Kinetex XB C18 1.7 microns 50x2.1 mm; Device: Shimadzu Nexera LC30 LCMS-2020.

Example 8. Obtaining 2- [2-chloro-4- (4-chlorophenoxy) phenyl] -1- (1,2,4-triazol-1-yl) pent-3-yn-2-ol (compound I-1 ).

The intermediate 1- [2-chloro-4- (4-chlorophenoxy) phenyl] -2- [1,2,4] triazol-1-yl-ethanone was prepared as described in WO 2010/0146114.

To the solution of the above ethanone (75.5 g, 216.8 mmol) dissolved in THF (450 ml) was added a solution of LaCl ₃ -2LiCl (395.9 ml, 0.6 M in THF) at room temperature and stirred for 1 hour. The resulting solution was added dropwise to 1-propynyl magnesium bromide (650.5 ml, 0.5 M in THF) at room temperature. After 1 h at room temperature, the resulting mixture was quenched with 10% aqueous HCl solution and extracted with MTBE. The organic phase was washed with brine, dried and evaporated. The crude compound was stirred in a solution of MTBE / diisopropyl ether and filtered to remove the starting material. The mother liquor was evaporated and purified on silica gel to give the title compound as a beige solid (31.1 g,

- 323 030875

HPLC-MS ² By = 1.15 min, mass = 388, so pl. = 137 ° C).

Compound I-2: 1 - [2-chloro-4- (4-chlorophenoxy) phenyl] -1 -cyclopropyl-2- (1,2,4-triazol-1-yl) ethanol

HPLC ² By (min): 1.24; melting point: 110 ° C.

Compound I-10: 2- [2-chloro-4- (4-chlorophenoxy) phenyl] -3,3-dimethyl-1 - (1,2,4-triazol-1-yl) butan-2-ol: HPLC ^l By (min): 3.480; HPLC ² By (min): 1.38.

HPLC ^one column: RP-18 column (Chromolith Speed ROD from Merck KgaA, Germany), 50 mm x 4.6 mm with eluent: acetonitrile + 0.1% trifluoroacetic acid (TFA) / water + 0.1% TFA (gradient from 5:95 to 95: 5 for 5 min at 40 ° C, flow 1.8 ml / min).

HPLC ² column: column (Kinetex XB C18 1.7 μm), 50 mmx2.1 mm with eluent: acetonitrile + 0.1% trifluoroacetic acid (TFA) / water; (gradient from 5:95 to 95: 5 over 1.5 min at 60 ° C, flow 1.8 ml / min) /

Enantiomeric compounds I-3 were isolated by preparative chromatography using the racemic mixture as the starting material.

Preparative method:

column: 250x30 mm CHIRALPAK AD-H 5 mm;

mobile phase: carbon dioxide / ethanol 83/17;

flow rate: 100 ml / min;

detection: UV 240 nm;

outlet pressure: 130 bar;

temperature: 25 ° C.

Analytical method:

column: 250x4.6 mm CHIRALPAK IA 5 pm;

mobile phase: heptane / isopropanol 90/10 (v / v);

flow rate: 1 ml / min; detection: DAD 250 nm;

temperature: 25 ° C.

The first eluted enantiomer (analytical method) had a retention time of 11.1 min ([α] = -27.8 °, 0.100 g / 5 ml THF at 20 ° C), while the second enantiomer had a retention time of 12.7 min ([α] = +22.9, C = 0.080 g / 5 ml M, THF at 20 ° С). The first eluted enantiomer is the (L) enantiomer I-3. The second eluted enantiomer is the (b) enantiomer I3.

Examples showing the activity of the compositions according to the invention.

The fungicidal activity of the compositions according to the invention is shown using the following biological examples.

Microtest

The active compounds were prepared separately as a stock solution with a concentration of 10,000 ppm in dimethyl sulfoxide.

1. Activity against Alternaria caused by Alternaria solani (Alteso).

The stock solutions were mixed according to the ratio, pipetted into a microtiter plate (MTP) and diluted with water to the indicated concentrations. Then the spore suspension of Alternaria solani was added to an aqueous solution of biosolod or a solution of yeast-bacto peptone-glycerin. The plates were placed in a water-saturated chamber at a temperature of 18 ° C. Using an MPS absorber, it was measured at 405 nm on the 7th day after inoculation.

2. Activity against the phytophlorosis pathogen Phytophthora infestans in the microtitration test (Phytin).

The stock solutions were mixed according to the ratio, pipetted into a microtiter plate (MTP) and diluted with water to the indicated concentrations. Then a spore suspension of Phytophtora infestans was added, containing an aqueous nutrient medium based on pea juice or DDC medium. The plates were placed in a water-saturated chamber at a temperature of 18 ° C. Using an MPS absorber, it was measured at 405 nm on the 7th day after inoculation.

3. Activity against Pycolularia oryzae rice smut in a microtiter test (Pyrior).

The stock solutions were mixed according to the ratio, pipetted into a microtiter plate (MTP) and diluted with water to the indicated concentrations. Then, a spore suspension of Pyricularia oryzae was added to an aqueous solution of biosolod or a solution of yeast-bacto peptone-glycerin. The plates were placed in a water-saturated chamber at a temperature of 18 ° C. Using an MPS absorber, it was measured at 405 nm on the 7th day after inoculation.

4. Activity against leaf spot on wheat caused by Septoria tritici (Septtr).

The stock solutions were mixed according to the ratio, pipetted into a microtiter plate (MTP) and diluted with water to the indicated concentrations. Then, a suspension of Septoria tritici spores was added to an aqueous solution of biosolod or a solution of yeast-bacto peptone-glycerin. The plates were placed in a water-saturated chamber at a temperature of 18 ° C. Using the MTP Absorption Photometer

- 324 030875 was measured at 405 nm on the 7th day after inoculation.

The measured parameters were compared with the growth of the control compound that does not contain the active compound (100%) and the zero value without fungi and without active compounds in order to determine the relative growth in% of pathogens in the corresponding active compounds. These percentages are converted to degrees of efficiency.

The expected efficacy levels of the mixtures of the active compounds were determined using the Colby formula [RS Colby, Calculating synergistic and antagonistic responses of herbicide combinations, Weeds 15, 20-22 (1967)] and compared with the observed degrees of effectiveness.

Alteso

Individual product A

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency 1-1 0.00025 four 1-3 0.000016 0 1-4 0.00025 7

Individual product B

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Triticonazole 0.063 one Fludioxonil 0.016 13 Fluxapiroxad 0.001 four

Alteso mix

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-1 Triticonazole Fludioxonil 0.00025 0.063 0.016 38 18 20 1-3 Triticonazole Fludioxonil 0.000016 0.063 0.016 33 15 18 1-4 Triticonazole Fludioxonil Fluxapiroxad 0.00025 0.063 0.016 0.001 44 24 20

Phytin

Individual product A

Active compound / active mixture 1-5 Concentration Observed (often per million) effectiveness 63 45

Individual product B

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Fluquinconazole four 0 Triticonazole sixteen 0 Fludioxonil one 0 Pyraclostrobin 0.016 9

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Phytin Blend

Active compound / active mixture Concentration Observable (often, on the effectiveness of a million) Estimated Colby Performance (%) Synergism (%) 1-5 Triticonazole Fludioxonil 63 71 16 1 45 26

Pyrior

Individual product A

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency 1-1 0.016 0 1-3 0.25 ten 1-5 0.063 9 1-4 0.25 23 0.063 0

Individual product B

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Fluquinconazole one one Triticonazole 4 1 59 1 Fludioxonil 0.016 36 pyraclostrobin 0.001 five Fluxapiroxad 0.25 one

Pyrior Blend

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-1 Triticonazole 0.016 1 31 one thirty 1-1 Fludioxonil 0.016 0.016 98 36 62 1-1 Fluquinconazole 0.016 1 31 3 28 1-1 Triticonazole Fludioxonil 0.016 1 0.016 99 36 63 1-1 Triticonazole Fludioxonil Fluxapiroxad 0.016 1 0.016 0.25 100 37 63 1-1 Fluquinconazole Piraclostrobin 0.016 1 0.001 44 6 38 1-3 0.25 84 63 21 Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) Triticonazole four 1-5 Triticonazole 0.063 4 85 62 23 1-4 Triticonazole 0.25 4 96 68 28 1-4 Triticonazole Fludioxonil Fluxapiroxad 0.063 1 0.016 0.25 83 38 45

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Septtr

Individual product A

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency 1-1 0.000063 17 1-5 0.000016 13 1-4 0.001 0

Individual product B

Active compound / active mixture Concentration Observable (often, on the effectiveness of a million) Fluquinconazole 0.004 0 Triticonazole 0.25 0

Mixture Septtr

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-1 Fluquinconazole 0.000063 0.004 40 17 23 1-5 Triticonazole 0.000016 0.25 38 13 25 1-4 Triticonazole 0.001 0.25 57 0 57

Microtest

The active compounds were prepared separately as a stock solution with a concentration of 10,000 ppm in dimethyl sulfoxide.

Activity against leaf spot on wheat caused by Septoria tritici (Septtr).

The stock solutions were mixed according to the ratio, pipetted into a microtiter plate (MTP) and diluted with water to the indicated concentrations. Then, a suspension of Septoria tritici spores was added to an aqueous solution of biosolod or a solution of yeast-bacto peptone-glycerin. The plates were placed in a water-saturated chamber at a temperature of 18 ° C. Using an MPS absorber, it was measured at 405 nm on the 7th day after inoculation.

The measured parameters were compared with the growth of the control compound that does not contain the active compound (100%) and the zero value without fungi and without active compounds in order to determine the relative growth in% of pathogens in the corresponding active compounds. These percentages are converted to degrees of efficiency.

The expected efficacy levels of the mixtures of the active compounds were determined using the Colby formula [RS Colby, Calculating synergistic and antagonistic responses of herbicide combinations, Weeds 15, 20-22 (1967)] and compared with the observed degrees of effectiveness.

Individual product A

Active compound / Concentration (frequently, on Apparent efficiency acting million) mixture 1-1 0.00063 17 0.000004 AND 1-3 0.000016 sixteen 0.000004 14 0.000001 five 0.00000025 eight 1-5 0.000016 13 0.000001 ten 0.00000025 five 1-4 0.001 0 0.000063 eight 0.000016 3 1-3 a 0.00025 0

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Individual product B

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Azoxystrobin 0.063 56 Bixaphen 0.063 54 Boskalid 0.25 52 Carbendazim sixteen sixteen Cyazofamide sixteen 40 Difenoconazole 0.016 26 Epoxyconazole 0.016 sixteen Fluoxastrobin 0.25 59 Fluxapiroxad 0.063 56 Mepiquat C1 63 sixteen Metconazole 0.016 24 Nitenpyram 63 ten ProgeksadionSa 63 15 Prothioconazole 0.063 58 0.016 17 Pyraclostrobin 0.004 37 Tebuconazole 0.063 15 Thiamethoxam one 57 0.25 18 0.063 AND Trinexapackethyl four 13

Double blend

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-1 bixafen 0.000004 0.063 76 59 17 1-1 Difenoconazole 0.000063 0.016 79 38 41 1-1 Fluxapiroxad 0.000004 0.063 80 61 nineteen 1-1 Prothioconazole 0.000063 0.063 91 65 26 1-1 Prothioconazole 0.000063 0.016 48 31 17

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Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-3 bixafen 0.000004 0.063 79 60 nineteen 1-3 bixafen 0.000001 0.063 100 56 44 1-3 boscalid 0.000001 0.25 96 54 42 1-3 Fluxapiroxad 0.000004 0.063 94 62 32 1-3 Fluxapiroxad 0.000001 0.063 92 58 34 1-3 Mepiquat C1 0.000004 63 97 27 70 1-3 Mepiquat C1 0.000001 63 98 nineteen 79 1-3 Nitenpyram 0.000001 63 82 14 68 1-3 Nitenpyram 0.000004 63 90 23 67 1-3 ProgeksadionSa 0.000004 63 61 27 34 1-3 ProgeksadionSa 0.000001 63 49 nineteen thirty 1-3 Prothioconazole 0.000016 0.063 92 64 28 1-3 Prothioconazole 0.00001 0.063 95 60 35 1-3 Prothioconazole 0.00000025 0.063 96 61 35

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-5 Prothioconazole 0.000016 0.063 85 63 22 1-5 Thiamethoxam 0.000001 0.25 46 26 20

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-4 Difenoconazole 0.001 0.016 89 26 63 1-4 Epoxyconazole 0.001 0.016 40 sixteen 24 1-4 Metconazole 0.001 0.016 49 24 25 1-4 Prothioconazole 0.001 0.063 98 58 40 1-4 Prothioconazole 0.001 0.016 79 17 62 1-4 Prothioconazole 0.000063 0.063 84 61 23 1-4 Prothioconazole 0.000016 0.063 95 59 36 1-4 Tebuconazole 0.001 0.063 38 sixteen 22 1-4 Thiamethoxam 0.001 0.063 37 12 25

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Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-For Cyazofamide 0.00025 0.016 97 40 57 1-Prothioconazole 0.00025 0.016 36 17 nineteen 1-Prothioconazole 0.00025 0.063 100 58 42

Microtest

The active compounds were prepared separately as a stock solution with a concentration of 10,000 ppm in dimethyl sulfoxide.

Activity against leaf spot on wheat caused by Septoria tritici (Septtr)

The stock solutions were mixed according to the ratio, pipetted into a microtiter plate (MTP) and diluted with water to the indicated concentrations. Then, a suspension of Septoria tritici spores was added to an aqueous solution of biosolod or a solution of yeast-bacto peptone-glycerin. The plates were placed in a water-saturated chamber at a temperature of 18 ° C. Using an MPS absorber, it was measured at 405 nm on the 7th day after inoculation.

The measured parameters were compared with the growth of the control compound that does not contain the active compound (100%) and the zero value without fungi and without active compounds in order to determine the relative growth in% of pathogens in the corresponding active compounds. These percentages are converted to degrees of efficiency.

The expected efficacy levels of the mixtures of the active compounds were determined using the Colby formula [RS Colby, Calculating synergistic and antagonistic responses of herbicide combinations, Weeds 15, 20-22 (1967)] and compared with the observed degrees of effectiveness.

Individual product A

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency 1-3 0.004 54 0.000016 sixteen 1-5 0.000016 13 1-4 0.016 18 Acting Concentration Observable compound/ tration effective acting (partly, on ness mixture million) 0.001 0

Individual product B

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Azoxystrobin 0.001 12 Bixaphen 0.063 54 Dipheno conazole 0.016 26 Fluoxastrobin 0.063 23 Prothioconazole 0.063 58 0.016 17

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Pyraclostrobin 0.004 37 0.001 12 0.00025 eight 0.000063 7 Tebuconazole 0.016 five

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Mixes

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-3 Bixafen Piraclostrobin 0.000016 0.063 0.004 97 75 22 1-3 Prothioconazole Tebuconazole 0.004 0.016 0.016 89 64 25

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-3 Pyraclostrobin Prothioconazole Tebuconazole 0.004 0.00025 0.016 0.016 88 67 21 1-5 Bixafen Piraklostrobin 0.000016 0.063 0.004 99 75 24 1-4 Bixafen Piraclostrobin 0.001 0.063 0.004 99 71 28 1-4 Piraklostrobin Difenokonazol 0.016 0.001 0.016 70 46 24

Microtest

The active compounds were prepared separately as a stock solution with a concentration of 10,000 ppm in dimethyl sulfoxide.

Activity against Pycolularia oryzae rice smut in microtiter test (Pyrior).

The stock solutions were mixed according to the ratio, pipetted into a microtiter plate (MTP) and diluted with water to the indicated concentrations. Then, a spore suspension of Pyricularia oryzae was added to an aqueous solution of biosolod or a solution of yeast-bacto peptone-glycerin. The plates were placed in a water-saturated chamber at a temperature of 18 ° C. Using an MPS absorber, it was measured at 405 nm on the 7th day after inoculation.

The measured parameters were compared with the growth of the control compound that does not contain the active compound (100%) and the zero value without fungi and without active compounds in order to determine the relative growth in% of pathogens in the corresponding active compounds. These percentages are converted to degrees of efficiency.

The expected efficacy levels of the mixtures of the active compounds were determined using the Colby formula [RS Colby, Calculating synergistic and antagonistic responses of herbicide combinations, Weeds 15, 20-22 (1967)] and compared with the observed degrees of effectiveness.

Individual product A

Active compound / active mixture Concentration (part per million) Apparent efficiency 1-1 0.063 eleven 0.016 0 0.001 3 1-3 0.25 ten 0.004 0

1-5 0.063 9

0.016 0

0.004 0

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Active compound / active mixture Concentration (part per million) Apparent efficiency 0.001 five 1-4 0.25 23 1-for one 47 0.25 3 0.063 four 0.016 6

Individual product B

Active compound / active mixture Concentration (part per million) Apparent efficiency Azoxystrobin 0.004 one Boskalid sixteen 2 Cyazofamide four 9 Difenoconazole one eleven 0.25 one Epoxyconazole 0.25 four 0.063 0 Fipronil sixteen eight four one Fluoxastrobin 0.063 73 0.016 eight Havepalibarb four 0 Mepiquat C1 sixteen four Metconazole 0.25 7 Nitenpyram 63 3 sixteen 0 four one

Active compound / active mixture Progeksadion-Sa Concentration (part per million) 63 Observed effectiveness 3 Prothioconazole four 23 one 13 Pyraclostrobin 0.004 59 0.001 five 0.00025 2 Tebuconazole 0.25 3 0.063 0 Thiamethoxam one 56 0.25 eleven 0.016 3 Trifloxystrobin 0.016 26 0.004 eleven Trineksapak-ethyl 63 81 sixteen 21 four five

Double blend

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-1 Fluoxastrobin 0.063 0.016 36 18 18 1-1 Prothioconazole 0.004 4 53 25 28 1-1 Tebuconazole 0.016 0.25 27 3 24

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Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-3 Epoxyconazole 0.25 0.25 32 14 18 1-3 Prothioconazole 0.25 4 58 31 27 1-3 Prothioconazole 0.004 4 59 23 36

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-5 Epoxyconazole 0.063 0.25 38 13 25 1-5 Prothioconazole 0.063 4 59 thirty 29 1-5 Prothioconazole 0.004 4 55 23 32 1-5 Prothioconazole 0.001 4 61 27 34 1-5 Prothioconazole 0.016 4 61 23 38

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-4 Ciazofamide 0.25 4 89 thirty 59 1-4 Difenoconazole 0.25 1 61 32 29 1-4 Epoxyconazole 0.25 0.25 72 26 46 1-4 Fluoxastrobin 0.25 0.016 46 29 17 1-4 Iprovalicarb 0.25 4 56 23 33 1-4 Prothioconazole 0.25 4 69 41 28 1-4 Prothioconazole 0.25 1 63 33 thirty 1-4 Piraklostrobin 0.25 0.001 57 27 thirty 1-4 0.25 68 25 43

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) Tebuconazole 0.25 1-4 Thiamethoxam 0.25 1 83 66 17 1-4 Trifloxystrobin 0.25 0.016 63 43 20 1-4 Trifloxystrobin 0.25 0.004 51 31 20

- 333 030875

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-For Cyazofamide 0.063 4 32 12 20 1-For Cyazofamide 14 97 51 46 1-for difenoconazole 0.016 1 33 sixteen 17 1-for epoxyconazole 0.25 0.25 25 7 18 1-For Metconazole 0.063 0.25 32 ten 22 1-Prothioconazole 0.25 1 36 15 21 1-Prothioconazole 0.063 4 58 26 32 1-Prothioconazole 0.25 4 53 26 27 1-For Tebuconazole 0.25 0.25 31 6 25

Microtest

The active compounds were prepared separately as a stock solution with a concentration of 10,000 ppm in dimethyl sulfoxide.

Activity against Pycolularia oryzae rice smut in microtiter test (Pyrior).

The stock solutions were mixed according to the ratio, pipetted into a microtiter plate (MTP) and diluted with water to the indicated concentrations. Then, a spore suspension of Pyricularia oryzae was added to an aqueous solution of biosolod or a solution of yeast-bacto peptone-glycerin. The plates were placed in a water-saturated chamber at a temperature of 18 ° C. Using an MPS absorber, it was measured at 405 nm on the 7th day after inoculation.

The measured parameters were compared with the growth of the control compound that does not contain the active compound (100%) and the zero value without fungi and without active compounds in order to determine the relative growth in% of pathogens in the corresponding active compounds. These percentages are converted to degrees of efficiency.

The expected efficacy levels of the mixtures of the active compounds were determined using the Colby formula [RS Colby, Calculating synergistic and antagonistic responses of herbicide combinations, Weeds 15, 20-22 (1967)] and compared with the observed degrees of effectiveness.

Individual product A

Acting Concentration Observable connection / (partly, on efficiency acting million) mixture 1-1 0.25 eight 1-3 one 37 1-5 one 67 1-4 one 47

Individual product B

Active compound / active mixture Concentration (part per million) Apparent efficiency Bixaphen 0.063 2 0.016 2 Chlorothalonil 0.063 7 Difenoconazole one eleven 0.25 one Epoxyconazole 0.25 four 0.063 0 Fluoxastrobin 0.016 eight 0.004 3 Isopyrazam 0.004 one Mepiquat C1 four one one 2 Metconazole one 58

- 334 030875

Active compound / active mixture Progeksadion-Sa Concentration - Observation (part per million) efficiency 16 2 4 2 Protio Conazole 4 23 1 13 Pyraclostrobin 0.001 5 0.00025 2 Tebuconazole 0.25 3 0.063 0 Trifloxystrobin 0.016 26 0.004 11 Trineksapak-ethyl 16 21 4 5

Mixes

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-1 Pyraclostrobin Prothioconazole 0.25 0.00025 1 90 21 69 1-1 Pyraclostrobin Difenoconazole 0.25 0.00025 0.25 27 ten 17 1-1 Epoxyconazole Metconazole 0.25 0.063 1 98 61 37 1-1 Prothioconazole Tebuconazole 0.25 1 0.063 77 20 57 1-1 Bixaphen Prothioconazole 0.25 0.016 1 86 21 65 1-1 Piraclostrobin Fluoxastrobin Prothioconazole 0.25 0.00025 0.004 1 91 23 68 1-1 Pyraclostrobin Prothioconazole Tebuconazole 0.25 0.00025 1 0.063 91 21 70 1-1 Pyraclostrobin Trifloxystrobin Prothioconazole 0.25 0.00025 0.004 1 90 29 61 1-1 Piraclostrobin Prohexadione Trinexapackethyl 0.25 0.00025 4 4 37 sixteen 21 1-1 Bixaphen Prothioconazole Tebuconazole 0.25 0.016 1 0.063 92 21 71 1-1 Bixaphen Piraclostrobin Prothioconazole 0.25 0.016 0.00025 1 82 23 59

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Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-3 Pyraclostrobin Epoxiconazole 1 0.001 0.25 77 43 34 1-3 Piraclostrobin Fluoxastrobin 1 0.001 0.016 69 46 23 1-3 Pyraclostrobin Prothioconazole 1 0.001 4 89 54 35 1-3 Pyraclostrobin Trifloxystrobin 1 0.001 0.016 82 56 26 1-3 Pyraclostrobin Difenoconazole 1 0.001 1 70 47 23 1-3 Epoxyconazole Chlorothalonil 1 0.25 0.063 72 44 28 1-3 Isopyrazam Epoxiconazole 1 0.004 0.25 70 41 29 1-3 Prothioconazole Tebuconazole 1 4 0.25 86 53 33 1-3 Bixaphen Prothioconazole 1 0.063 4 78 53 25 1-3 Piraclostrobin Fluoxastrobin Prothioconazole 1 0.001 0.016 4 93 58 35 1-3 Pyraclostrobin Prothioconazole Tebuconazole 1 0.001 4 0.25 92 56 36 1-3 Pyraclostrobin Trifloxystrobin Prothioconazole 1 0.001 0.016 4 99 66 33 1-3 Piraklostrobin Progeksadion Trineksapak-ethyl 1 0.001 16 16 100 54 46 1-3 Bixaphen Prothioconazole Tebuconazole 1 0.063 4 0.25 86 54 32

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1-3 Bixafen Piraclostrobin Prothioconazole 1 0.063 0.001 4 86 55 31 1-3 Bixaphen Piraclostrobin Tebuconazole 1 0.063 0.001 0.25 73 43 thirty Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-5 Piraklostrobin Difenokonazol 1 0.001 1 93 72 21 1-5 Isopyrazam Epoxiconazole 1 0.004 0.25 89 69 20 1-5 Prohexadione Mepiquat-c1 1 16 4 90 68 22 1-5 Bixaphen Prothioconazole 1 0.063 4 94 75 nineteen 1-5 Bixafen Piraklostrobin 1 0.063 0.001 97 69 28 1-5 Piraclostrobin Fluoxastrobin Prothioconazole 1 0.001 0.016 4 100 78 22 1-5 Piraclostrobin Prothioconazole Tebuconazole 1 0.001 4 0.25 100 77 23 1-5 Piraclostrobin Trifloxystrobin Prothioconazole 1 0.001 0.016 4 100 82 18 1-5 Piraklostrobin Progeksadion Trineksapak-ethyl 1 0.001 16 16 100 76 24 1-5 Bixaphen Piraclostrobin Tebuconazole 1 0.063 0.001 0.25 90 70 20

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Active compound / active mixture Concentration Observable (often, on the effectiveness of a million) Estimated Colby Performance (%) Synergism (%) 1-4 Piraclostrobin Epoxyconazole 1 75 0.001 0.25 52 23 1-4 Piraclostrobin Prothioconazole 1 96 0.001 4 61 35 1-4 Pyraclostrobin Trifloxystrobin 1 90 0.001 0.016 63 27 1-4 Isopyrazam Epoxiconazole 1 83 0.004 0.25 49 34 1-4 Prothioconazole Tebuconazole 1 96 4 0.25 60 36 1-4 Bixaphen Prothioconazole 1 84 0.063 4 60 24 1-4 Piraclostrobin Fluoxastrobin Prothioconazole 1 99 0.001 0.016 4 64 35 1-4 Piraclostrobin Prothioconazole Tebuconazole 1 97 0.001 4 0.25 62 35 1-4 Piraclostrobin Trifloxystrobin Prothioconazole 1,100 0.001 0.016 4 71 29 1-4 Piraklostrobin Progeksadion Trineksapak-ethyl 1,100 0.001 16 16 61 39 1-4 Bixaphen Prothioconazole Tebuconazole 1 89 0.063 4 0.25 61 28 1-4 1 97 62 35 Bixafen Piraclostrobin Prothioconazole 0.063 0.001 4 1-4 Bixafen Piraclostrobin Tebuconazole 1 86 0.063 0.001 0.25 52 34

Microtest

The active compounds were prepared separately as a stock solution with a concentration of 10,000 ppm in dimethyl sulfoxide.

Activity against phytophlorosis pathogen Phytophthora infestans in microtiter test (Phytin).

The stock solutions were mixed according to the ratio, pipetted into a microtiter plate (MTP) and diluted with water to the indicated concentrations. Then a spore suspension of Phytophtora infestans was added, containing an aqueous nutrient medium based on pea juice or DDC medium. The plates were placed in a water-saturated chamber at a temperature of 18 ° C. Using an MPS absorber, it was measured at 405 nm on the 7th day after inoculation.

The measured parameters were compared with the growth of the control compound that does not contain the active compound (100%) and the zero value without fungi and without active compounds in order to determine the relative growth in% of pathogens in the corresponding active compounds. These percentages are converted to degrees of efficiency. The expected efficacy levels of the mixtures of the active compounds were determined using the Colby formula [RS Colby, Calculating synergistic and antagonistic responses of herbicide combinations, Weeds 15, 20-22 (1967)] and compared with the observed degrees of effectiveness.

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Individual product A

Active compound / active mixture Concentration Observable (often, on the effectiveness of a million) 1-1 16 0 1-3 16 4 4 4 1-5 63 45 16 2 1-4 16 9 4 3

Individual product B

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Amethoctradine one 75 0.25 nineteen 0.063 2 Azoxystrobin 0.016 2 Chlorothalonil 0.016 2 Cyazofamide 0.004 eight Epoxyconazole 0.063 one Fipronil one four Fluoxastrobin 0.25 73 0.063 sixteen 0.016 four Havepalibarb 0.25 nineteen Isopyrazam sixteen 23

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Mepiquat C1 four five Metconazole 0.004 2 Prothioconazole sixteen 35 four 12 one four 0.25 2 Pyraclostrobin 0.063 34 Tebuconazole 0.016 one Thiamethoxam four 2 one one Trifloxystrobin 0.25 eight 0.063 3

Double blend

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-1 Amethoctradine 16 0.25 40 nineteen 21 1-1 Cyazofamide 16 0.004 35 eight 27 1-1 Fipronil 16 1 27 four 23 1-1 Isopyrazam 16 16 44 23 21 1-1 Prothioconazole 16 4 54 12 42 1-1 Prothioconazole 16 16 68 35 33

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Active compound / active mixture Concentration (frequently, per million) mixture Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-3 Iprovalicarb 16 0.25 63: 1 70 22 48 1-3 Iprovalicarb 4 0.25 16: 1 42 22 20

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-5 Amethoctradine 63 0.25 81 55 26 1-5 Amethoctradine 16 1 97 76 21 1-5 Amethoctradine 16 0.25 99 21 78 1-5 Azoxystrobin 16 0.016 32 four 28 1-5 Chlorothalonil 16 0.016 21 four 17 1-5 Cyazofamide 16 0.004 37 ten 27 1-5 Epoxyconazole 16 0.063 21 3 18 1-5 Fipronil 16 1 26 five 21 1-5 Fluoxastrobin 16 0.063 42 17 25 1-5 Fluoxastrobin 16 0.016 34 6 28 1-5 Ipovalicarb 16 0.25 45 21 24 1-5 Ipovalicarb 63 0.25 96 55 41 1-5 Mepiquat C1 16 4 26 6 20 1-5 Metconazole 16 0.004 21 four 17 1-5 Prothioconazole 16 1 27 6 21 1-5 Prothioconazole 16 0.25 22 four 18 1-5 Tebuconazole 16 0.016 22 3 nineteen 1-5 Thiamethoxam 16 1 31 3 28 1-5 Thiamethoxam 16 4 24 four 20 1-5 Trifloxystrobin 16 0.063 31 five 26 1-5 Trifloxystrobin 16 0.25 33 ten 23

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-4 Amethoctradine 16 0.25 98 26 72 1-4 Amethoctradine 16 1 99 77 22 1-4 Fluoxastrobin 16 0.25 96 75 21 1-4 Iprovalicarb 16 0.25 63 26 37 1-4 Prothioconazole 16 16 94 40 54 1-4 Prothioconazole 4 16 66 37 29 1-4 Piraklostrobin 16 0.063 85 40 45

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Microtest

The active compounds were prepared separately as a stock solution with a concentration of 10,000 ppm in dimethyl sulfoxide.

Activity against phytophlorosis pathogen Phytophthora infestans in microtiter test (Phytin).

The stock solutions were mixed according to the ratio, pipetted into a microtiter plate (MTP) and diluted with water to the indicated concentrations. Then a spore suspension of Phytophtora infestans was added, containing an aqueous nutrient medium based on pea juice or DDC medium. The plates were placed in a water-saturated chamber at a temperature of 18 ° C. Using an MPS absorber, it was measured at 405 nm on the 7th day after inoculation.

The measured parameters were compared with the growth of the control compound that does not contain the active compound (100%) and the zero value without fungi and without active compounds in order to determine the relative growth in% of pathogens in the corresponding active compounds.

These percentages are converted to degrees of efficiency. The expected efficacy levels of the mixtures of the active compounds were determined using the Colby formula [RS Colby, Calculating synergistic and antagonistic responses of herbicide combinations, Weeds 15, 20-22 (1967)] and compared with the observed degrees of effectiveness.

Individual product A

Active compound / active mixture Concentration Observable (often, on the effectiveness of a million) 1-4 16 9

Individual product B

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Bixaphen one 25 Carbendazim four 24 Difenoconazole four thirty Epoxyconazole four 27 Prothioconazole sixteen 35 Pyraclostrobin 0.063 34 Tebuconazole one 25 Trifloxystrobin one 37

Mixes

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-4 Piraclostrobin Epoxyconazole 16 0.063 4 86 56 thirty 1-4 Piraclostrobin Prothioconazole 16 0.063 16 90 61 29

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1-4 Pyraclostrobin Trifloxystrobin 16 0.063 1 94 62 32 1-4 Piraclostrobin Carbendazim 16 0.063 4 81 55 26 1-4 Piraklostrobin Difenokonazol 16 0.063 4 94 58 36 1-4 Prothioconazole Tebuconazole 16 16 1 95 56 39 1-4 Bixaphen Prothioconazole 16 1 16 74 56 18 1-4 Bixafen Piraclostrobin 16 1 0.063 78 55 23 1-4 Piraclostrobin Prothioconazole Tebuconazole 16 0.063 16 1 90 71 nineteen 1-4 Piraclostrobin Trifloxystrobin Prothioconazole 16 0.063 1 16 98 75 23 1-4 Bixaphen Prothioconazole Tebuconazole 16 1 16 1 86 67 nineteen 1-4 Bixafen Piraclostrobin Prothioconazole 16 1 0.063 16 98 71 27

Microtest

The active compounds were prepared separately as a stock solution with a concentration of 10,000 ppm in dimethyl sulfoxide.

Activity against wheat leaf spot caused by Leptosphaeria nodorum (Leptno).

The stock solutions were mixed according to the ratio, pipetted into a microtiter plate (MTP) and diluted with water to the indicated concentrations. Then a suspension of Leptosphaeria nodorum spores was added to an aqueous solution of biosolod or a solution of yeast-bacto peptone-glycerin. The plates were placed in a water-saturated chamber at a temperature of 18 ° C. Using an MPS absorber, it was measured at 405 nm on the 7th day after inoculation.

The measured parameters were compared with the growth of the control compound that does not contain the active compound (100%) and the zero value without fungi and without active compounds in order to determine the relative growth in% of pathogens in the corresponding active compounds.

These percentages are converted to degrees of efficiency. The expected efficacy levels of the mixtures of the active compounds were determined using the Colby formula [RS Colby, Calculating synergistic and antagonistic responses of herbicide combinations, Weeds 15, 20-22 (1967)] and compared with the observed degrees of effectiveness.

Individual product A

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency 1-1 0.000063 12 1-3 0.000063 26 1-5 0.063 20 0.001 9 1-for 0.004 2 0.001 3

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Individual product B

Active compound / active mixture Concentration (part per million) Apparent efficiency Azoxystrobin 0.063 42 Bixaphen 0.25 nineteen Boskalid four 23 Chlorothalonil one 28 Difenoconazole 0.016 29 Epoxyconazole 0.063 43 Havepalibarb sixteen nineteen Mepiquat C1 63 28 Metconazole 0.063 53 Nitenpyram 63 23

Active compound / active mixture Prothioconazole Concentration (part per million) 1 Observed effectiveness 43 Pyraclostrobin 0.016 24 Tebuconazole 0.25 43 Thiamethoxam four 51 one 22 Trifloxystrobin 0.063 39 Trineksapak-ethyl 63 17

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-1 Chlorothalonil 0.000063 1 61 37 24

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-3 Pyraclostrobin 0.000063 0.016 68 44 24

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-5 Chlorothalonil 0.001 1 100 35 65 1-5 Piraklostrobin 0.063 0.016 60 40 20

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Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-For Azoxystrobin 0.004 0.063 63 42 21 1-For Bixafen 0.004 0.25 45 20 25 1-For Boskalid 0.004 4 53 24 29 1-for difenoconazole 0.004 0.016 58 thirty 28 1-for epoxyconazole 0.004 0.063 73 44 29 1-For Iprovalikarb 0.004 16 39 20 nineteen 1-For Mepiquat-c1 0.004 63 46 29 17 1-For Metconazole 0.004 0.063 93 53 40 1-For Nitenpyram 0.004 63 57 24 33 1-for 0.004 96 44 52 Prothioconazole one 1-For Tebuconazole 0.004 0.25 86 44 42 1-For Thiamethoxam 0.004 4 96 51 45 1-For Thiamethoxam 0.004 1 50 24 26 1-For Trinexapackethyl 0.004 63 100 18 82 1-For Trinexapackethyl 0.001 63 100 nineteen 81

Microtest

The active compounds were prepared separately as a stock solution with a concentration of 10,000 ppm in dimethyl sulfoxide.

Activity against leaf spot an wheat caused by Leptosphaeria nodorum (Leptno).

The stock solutions were mixed according to the ratio, pipetted into a microtiter plate (MTP) and diluted with water to the indicated concentrations. Then a suspension of Leptosphaeria nodorum spores was added to an aqueous solution of biosolod or a solution of yeast-bacto peptone-glycerin. The plates were placed in a water-saturated chamber at a temperature of 18 ° C. Using an MPS absorber, it was measured at 405 nm on the 7th day after inoculation.

The measured parameters were compared with the growth of the control compound that does not contain the active compound (100%) and the zero value without fungi and without active compounds in order to determine the relative growth in% of pathogens in the corresponding active compounds.

These percentages are converted to degrees of efficiency.

The expected efficacy levels of the mixtures of the active compounds were determined using the Colby formula [RS Colby, Calculating synergistic and antagonistic responses of herbicide combinations, Weeds 15, 20-22 (1967)] and compared with the observed degrees of effectiveness.

Individual product A

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency 1-1 0.063 nineteen 1-5 0.25 nineteen 0.063 20 1-4 0.001 15

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Individual product B

Active compound / active mixture Concentration (part per million) Apparent efficiency Bixaphen 0.25 nineteen 0.063 14 Mepiquat C1 63 28 ProgeksadionSa 63 23 Prothioconazole one 43 0.25 thirty

Active compound / active mixture Concentration (part per million) Apparent efficiency Pyraclostrobin 0.016 24 Tebuconazole 0.25 0.063 43 24 Trinexapackethyl 63 17

Mixes

Active compound / active mixture Concentration Observable (often, on the effectiveness of a million) Estimated Colby Performance (%) Synergism (%) 1-1 Bixaphen Prothioconazole 0.063 76 0.063 0.25 52 24 1-1 Bixaphen Prothioconazole Tebuconazole 0.063 83 0.063 0.25 0.063 63 20 1-1 Bixaphen Piraclostrobin Prothioconazole 0.063 81 0.063 0.016 0.25 63 18 1-5 Prohexadione Sa Trinexapackethyl 0.063 99 63 63 49 50 1-5 ProgeksadionSa Trineksapak- 0.063 99 63 63 63 36

Active compound / active mixture Concentration Observable (often, on the effectiveness of a million) Estimated Colby Performance (%) Synergism (%) Ethyl Mepiquat C1 63 1-5 Prothioconazole Tebuconazole 0.25 94 1 0.25 74 20 1-5 Bixaphen Prothioconazole 0.25 85 0.25 1 63 22 1-4 Prohexadione Sa Trinexapackethyl 0.001 99 63 63 46 53 1-4 ProgeksadionSa Trineksapaketil Mepiquat-C1 0.001 99 63 63 63 61 38

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Microtest

The active compounds were prepared separately as a stock solution with a concentration of 10,000 ppm in dimethyl sulfoxide.

Activity against the gray mold of Botrytis cinerea in a microtiter test (Botrci).

The stock solutions were mixed according to the ratio, pipetted into a microtiter plate (MTP) and diluted with water to the indicated concentrations. Then, a spore suspension of Botrci cinerea was added to an aqueous solution of biosolod or a solution of yeast-bacto peptone-sodium acetate. The plates were placed in a water-saturated chamber at a temperature of 18 ° C. Using an MPS absorber, it was measured at 405 nm on the 7th day after inoculation.

The measured parameters were compared with the growth of the control compound that does not contain the active compound (100%) and the zero value without fungi and without active compounds in order to determine the relative growth in% of pathogens in the corresponding active compounds. These percentages are converted to degrees of efficiency.

The expected efficacy levels of the mixtures of the active compounds were determined using the Colby formula [RS Colby, Calculating synergistic and antagonistic responses of herbicide combinations, Weeds 15, 20-22 (1967)] and compared with the observed degrees of effectiveness.

Individual product A

Active compound / active mixture Concentration (part per million) Apparent efficiency 1-1 0.000063 0 0.000016 one 0.000004 0 0.000001 four 1-3 0.000063 0 0.000016 five 0.000004 0

1-5 0.25 27

Active compound / active mixture Concentration (part per million) 0.063 Observed Efficiency 14 1-4 0.001 five 0.00025 2 0.000063 four 1-for 0.016 0 0.001 0 0.00025 0

Individual product B

Active compound / active mixture Concentration (part per million) Apparent efficiency Amethoctradine 63 four sixteen 3 Azoxystrobin four 14 0.25 6 Bixaphen 0.063 26 Boskalid 0.25 38 Chlorothalonil four 41 Cyazofamide sixteen 24 Difenoconazole 0.25 nineteen Fluoxastrobin sixteen 23 four ten one five Havepalibarb 63 6 sixteen 3

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Active compound / active mixture Concentration (part per million) 4 Observed effectiveness 2 Metconazole 0.063 29 Progeksadion-sa 63 four Prothioconazole four 72 one 36 0.25 23 Pyraclostrobin sixteen 66 four 29 Tebuconazole 0.25 41 Thiamethoxam 63 eight Trifloxystrobin sixteen 6 four 2 Trineksapak-ethyl 63 15 sixteen five

Double blend

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-1 Boskalid 0.000063 0.25 55 38 17 1-1 Prothioconazole 0.000063 1 68 36 32 1-1 0.000004 89 72 17

Active compound / active mixture Prothioconazole Concentration (frequently, per million) 4 Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-1 Prothioconazole 0.000063 0.25 41 23 18 1-1 Prothioconazole 0.000016 4 92 72 20 1-1 Pyraclostrobin 0.000063 16 92 66 26 1-1 Pyraclostrobin 0.000063 4 59 29 thirty 1-1 Pyraclostrobin 0.000001 4 51 31 20

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-3 bixafen 0.000063 0.063 45 26 nineteen 1-3 Prothioconazole 0.000004 4 91 72 nineteen 1-3 Prothioconazole 0.000016 1 63 39 24 1-3 Prothioconazole 0.000063 1 78 36 42 1-3 Prothioconazole 0.000063 0.25 43 23 20 1-3 Pyraclostrobin 0.000063 4 56 29 27 1-3 Trifloxystrobin 0.000063 16 24 6 18

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Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-5 Ipovalicarb 0.25 16 53 29 24 1-5 Ipovalicarb 0.063 63 36 nineteen 17 1-5 Piraklostrobin 0.25 4 66 48 18

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-4 Azoxystrobin 0.001 4 36 18 18 1-4 bixafen 0.001 0.063 53 thirty 23 1-4 Boskalid 0.001 0.25 61 41 20 1-4 Chlorothalonil 0.000063 4 62 43 nineteen 1-4 Prothioconazole 0.001 1 61 39 22 1-4 Piraklostrobin 0.001 16 86 68 18 1-4 Piraklostrobin 0.001 4 79 32 47 1-4 Thiamethoxam 0.00025 63 28 ten 18 1-4 Trifloxystrobin 0.001 16 thirty and nineteen

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-3 and Ipalivarb 0.016 63 77 6 71 1-3 and Ipalivarb 0.016 16 26 3 23 1-3 and Prothioconazole 0.016 4 97 72 25 1-3 and Prothioconazole 0.016 1 99 36 63 1-3 and Prothioconazole 0.016 0.25 49 23 26 1-3 and Prothioconazole 0.001 1 84 36 48 1-3 and Prothioconazole 0.00025 1 86 36 50

Microtest

The active compounds were prepared separately as a stock solution with a concentration of 10,000 ppm in dimethyl sulfoxide.

Activity against the gray mold of Botrytis cinerea in a microtiter test (Botrci).

The stock solutions were mixed according to the ratio, pipetted into a microtiter plate (MTP) and diluted with water to the indicated concentrations. Then, a spore suspension of Botrci cinerea was added to an aqueous solution of biosolod or a solution of yeast-bacto peptone-sodium acetate. The plates were placed in a water-saturated chamber at a temperature of 18 ° C. Using an MPS absorber, it was measured at 405 nm on the 7th day after inoculation.

The measured parameters were compared with the growth of the control compound that does not contain the active compound (100%) and the zero value without fungi and without active compounds in order to determine the relative growth in% of pathogens in the corresponding active compounds. These percentages are converted to degrees of efficiency.

The expected efficacy levels of the mixtures of the active compounds were determined using the Colby formula [RS Colby, Calculating synergistic and antagonistic responses of herbicide combinations, Weeds 15, 20-22 (1967)] and compared with the observed degrees of effectiveness.

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Individual product A

Active compound / active mixture Concentration (part per million) Apparent efficiency 1-1 0.063 sixteen 0.000063 0 0.000016 one 1-3 0.063 23 0.000063 0 0.000016 five 1-5 0.25 27 Active compound / active mixture Concentration (part per million) Apparent efficiency 0.063 14 1-4 0.25 17 0.063 four 0.001 five 0.00025 2

Individual product B

Active compound / active mixture Concentration - Observation (part per million) efficiency Azoxystrobin 16 23 4 14 Bixaphen 0.063 26 0.016 8 Carbendazim 0.016 3 0.004 5

Chlorothalonil

Active compound / active mixture Concentration - Observation (part per million) efficiency 1 23 Difenoconazole 0.25 19 0.063 10 Epoxyconazole 0.063 23 0.016 11 Fluoxastrobin 4 10 1 5

Active compound / active mixture Concentration (part per million) Apparent efficiency Isopyrazam 0.016 6 Mepiquat C1 sixteen eleven Metconazole 0.063 29 Progeksadion-sa sixteen five four ten Prothioconazole one 36 0.25 23 Pyraclostrobin sixteen 66

Active compound / active mixture Concentration (part per million) 4 Observed effectiveness 29 Tebuconazole 0.063 12 0.016 9 Trifloxystrobin sixteen 6 four 2 Trine xapak-ethyl sixteen five four 7

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Mixes

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-1 Piraclostrobin Chlorothalonil 0.000016 16 1 100 74 26 1-1 Azoxystrobin Chlorothalonil 0.000063 16 4 100 55 45 1-1 Pyraclostrobin Prothioconazole 0.063 4 0.25 83 54 29 1-1 Bixafen Piraclostrobin 0.063 0.016 4 62 45 17 1-1 Piraclostrobin Fluoxastrobin Prothioconazole 0.063 4 1 0.25 85 56 29 1-1 Pyraclostrobin Prothioconazole Tebuconazole 0.063 4 0.25 0.016 88 58 thirty 1-1 Pyraclostrobin Trifloxystrobin Prothioconazole 0.063 4 4 0.25 84 55 29 1-1 Bixafen Piraclostrobin Tebuconazole 0.063 0.016 4 0.016 69 49 20 1-1 Piraclostrobin Azoxystrobin Chlorothalonil 0.000016 16 4 1 100 78 22

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1-3 0.000016 100 75 25 Pyraclostrobin sixteen Chlorothalonil one 1-3 0.000063 99 55 44 Azoxystrobin sixteen Chlorothalonil four 1-3 0.063 77 51 26 Pyraclostrobin four Epoxyconazole 0.016 1-3 0.063 82 47 35 Pyraclostrobin four Fluoxastrobin one 1-3 0.063 92 58 34 Pyraclostrobin four Prothioconazole 0.25 1-3 0.063 81 46 35 Pyraclostrobin four Trifloxystrobin four 1-3 0.063 75 48 27 Pyraclostrobin four Carbendazim 0.004 1-3 0.063 79 51 28 Pyraclostrobin four Difenoconazole 0.063 1-3 0.063 71 51 20 Pyraclostrobin four Progeksadion-sa four 1-3 0.063 86 49 37 Bixaphen 0.016 Pyraclostrobin four 1-3 0.063 91 60 31 Pyraclostrobin four Fluoxastrobin one Prothioconazole 0.25 1-3 0.063 92 62 thirty Pyraclostrobin four Prothioconazole 0.25 Tebuconazole 0.016 1-3 0.063 87 59 28 Pyraclostrobin four Trifloxystrobin four Prothioconazole 0.25 1-3 0.063 90 61 29 Bixaphen 0.016 Pyraclostrobin four Prothioconazole 0.25 1-3 0.063 69 54 15 Bixaphen 0.016 Pyraclostrobin four Tebuconazole 0.016 1-3 0.000016 100 79 21 Pyraclostrobin sixteen Azoxystrobin four Chlorothalonil one

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-5 Piraclostrobin Chlorothalonil 0.063 16 1 100 78 22 1-5 Trifloxystrobin Prothioconazole 0.063 16 1 86 48 38 1-5 Azoxystrobin Chlorothalonil 0.25 16 4 96 67 29 1-5 Piraclostrobin Azoxystrobin Chlorothalonil 0.063 16 4 1 100 81 nineteen

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1-4 Piraclostrobin Chlorothalonil 0.00025 16 1 100 75 25 1-4 Azoxystrobin Chlorothalonil 0.001 16 4 100 57 43 1-4 Piraclostrobin Prothioconazole 0.063 4 0.25 74 48 26 1-4 Piraclostrobin Tebuconazole 0.25 1 0.063 84 53 31 1-4 0.25 83 61 22

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) Bixaphen Prothioconazole 0.063 1 1-4 Bixafen Piraclostrobin 0.063 0.016 4 58 37 21 1-4 Piraclostrobin Fluoxastrobin Prothioconazole 0.063 4 1 0.25 88 50 38 1-4 Piraclostrobin Prothioconazole Tebuconazole 0.063 4 0.25 0.016 85 52 33 1-4 Piraclostrobin Trifloxystrobin Prothioconazole 0.063 4 4 0.25 83 49 34 1-4 Bixaphen Prothioconazole Tebuconazole 0.25 0.063 1 0.063 85 65 20 1-4 Bixafen Piraclostrobin Prothioconazole 0.063 0.016 4 0.25 85 52 33 1-4 Bixafen Piraclostrobin Tebuconazole 0.063 0.016 4 0.016 62 42 20

Microtest

The active compounds were prepared separately as a stock solution with a concentration of 10,000 ppm in dimethyl sulfoxide.

Activity against Alternaria caused by Alternaria solani (Alteso).

The stock solutions were mixed according to the ratio, pipetted into a microtiter plate (MTP) and diluted with water to the indicated concentrations. Then the spore suspension of Alternaria solani was added to an aqueous solution of biosolod or a solution of yeast-bacto peptone-glycerin. The plates were placed in a water-saturated chamber at a temperature of 18 ° C. Using an MPS absorber, it was measured at 405 nm on the 7th day after inoculation.

The measured parameters were compared with the growth of the control compound that does not contain the active compound (100%) and the zero value without fungi and without active compounds in order to determine the relative growth in% of pathogens in the corresponding active compounds.

These percentages are converted to degrees of efficiency.

The expected efficacy levels of the mixtures of the active compounds were determined using the Colby formula [RS Colby, Calculating synergistic and antagonistic responses of herbicide combinations, Weeds 15, 20-22 (1967)] and compared with the observed degrees of effectiveness.

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Individual product A

Active compound / active mixture Concentration (part per million) Apparent efficiency 1-1 0.001 ten 0.000004 eight 1-3 0.000063 eight 0.000004 five

1-5 1 49

0.063 14

0.016 10

Active compound / active mixture Concentration (part per million) Apparent efficiency 0.004 eleven 1-4 0.001 ten 0.00025 7 0.000063 five 1-for 0.016 36

Individual product B

Active compound / active mixture Concentration (part per million) Apparent efficiency Amethoctradine 63 6 sixteen 2 four five Azoxystrobin 0.016 14 0.004 6 Bixaphen 0.004 38 0.001 five 0.000025 6 Boskalid 0.004 6 0.001 five Carbendazim 63 34 sixteen ten four 7 Chlorothalonil 0.25 2 0.063 four

Cyazofamide 16 35

Active compound / active mixture Concentration (part per million) Apparent efficiency four 14 Difenoconazole 0.063 18 0.016 five 0.004 five Epoxyconazole 0.063 52 0.016 eight 0.004 five Fipronil four 2 one 6 Fluoxastrobin 0.063 27 0.016 eleven Fluxapiroxad 0.001 four Havepalibarb 63 one sixteen 2 four one Isopyrazam 0.016 15

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Active compound / active mixture Concentration (part per million) Apparent efficiency Mepiquat C1 63 sixteen sixteen ten Metconazole 0.016 17 Nitenpyram 63 eight sixteen 2 four 2 Progeksadion-sa sixteen 2 four 6 Prothioconazole one 66 0.25 15 0.063 eight

Active compound / active mixture Concentration (part per million) Apparent efficiency Pyraclostrobin 0.016 18 0.004 eight Tebuconazole 0.016 eight Thiamethoxam four 51 one ten 0.25 eight Trifloxystrobin 0.016 eleven 0.004 7 Trineksapak-ethyl sixteen 27 four 12

Double blend

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-1 Azoxystrobin 0.001 0.016 43 23 20 1-1 Fluoxastrobin 0.001 0.063 57 34 23 1-1 Isopyrazam 0.001 0.016 42 23 nineteen 1-1 Isopyrazam 0.000004 0.016 46 21 25

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-3 Azoxystrobin 0.000063 0.016 42 14 28 1-3 fluoxastrobin 0.000063 0.063 54 27 27 1-3 Isopyrazam 0.000063 0.016 42 15 27 1-3 Isopyrazam 0.000004 0.016 57 nineteen 38 1-3 Pyraclostrobin 0.000063 0.016 47 18 29 1-3 Trifloxystrobin 0.000063 0.016 32 AND 21

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Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-5 Amethoctradine 14 82 52 thirty 1-5 Amethoctradine 1 16 82 50 32 1-5 Azoxystrobin 1 0.004 76 53 23 1-5 Azoxystrobin 1 0.016 83 57 26 1-5 bixafen 1 0.00025 81 52 29 1-5 bixafen 1 0.001 82 52 thirty 1-5 Boskalid 1 0.004 79 53 26 1-5 Carbendazim 1 16 81 54 27 1-5 Chlorothalonil 1 0.063 70 52 18 1-5 Chlorothalonil 1 0.25 75 50 25 1-5 Cyazofamide 14 79 56 23 1-5 difenoconazole 1 0.016 88 52 36 1-5 difenoconazole 1 0.063 89 59 thirty 1-5 difenoconazole 1 0.004 75 52 23 1-5 Epoxyconazole 1 0.016 72 54 18 1-5 Epoxyconazole 1 0.004 76 52 24 1-5 Fipronil eleven 72 52 20 1-5 Fipronil 14 78 50 28 1-5 Fluoxastrobin 1 0.063 85 63 22 1-5 Fluoxastrobin 1 0.016 85 55 thirty 1-5 Fluxapiroxad 1 0.001 82 51 31 1-5 Ipovalicarb 1 16 74 50 24

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1-5 Ipovalicarb 1 63 76 50 26 1-5 Ipovalicarb 14 81 50 31 1-5 Isopyrazam 0.063 0.016 55 27 28 1-5 Isopyrazam 0.016 0.016 52 23 29 1-5 Metconazole 1 0.016 78 58 20 1-5 Metconazole 0.016 0.016 48 26 22 1-5 Metconazole 0.004 0.016 46 27 nineteen 1-5 Nitenpyram 1 63 82 53 29 1-5 Nitenpyram 14 81 51 thirty 1-5 Nitenpyram 1 16 79 51 28 1-5 Progeksadion-Sa 1 16 76 50 26 1-5 Progeksadion-Sa 14 86 52 34 1-5 Prothioconazole 1 0.25 83 57 26 1-5 Prothioconazole 1 0.063 90 53 37 1-5 Piraklostrobin 1 0.016 79 59 20 1-5 Piraklostrobin 1 0.004 80 54 26 1-5 Tebuconazole 1 0.063 69 47 22 1-5 Tebuconazole 1 0.016 78 53 25 1-5 Thiamethoxam eleven 85 55 thirty 1-5 Thiamethoxam 1 0.25 87 53 34 1-5 Thiamethoxam 0.25 1 72 48 24 1-5 Trifloxystrobin 1 0.016 84 55 29 1-5 Trifloxystrobin 1 0.004 85 53 32 1-5 Trinexapac-ethyl 14 79 56 23

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Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-4 Azoxystrobin 0.001 0.016 49 23 26 1-4 Ciazofamide 0.00025 16 58 39 nineteen 1-4 Difenoconazole 0.001 0.063 46 26 20 1-4 Metconazole 0.001 0.016 44 26 18 1-4 Fluoxastrobin 0.001 0.063 78 34 44 1-4 Prothioconazole 0.001 0.25 70 23 47 1-4 Prothioconazole 0.000063 0.25 44 nineteen 25 1-4 Prothioconazole 0.000063 1 88 68 20 1-4 Piraklostrobin 0.001 0.004 43 18 25 1-4 Piraklostrobin 0.001 0.016 88 26 62 1-4 Trifloxystrobin 0.001 0.016 41 21 20

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency Estimated Colby Performance (%) Synergism (%) 1-For Azoxystrobin 0.016 0.016 65 46 nineteen 1-For Nitenpyram 0.016 63 72 41 31 1-Prothioconazole 0.016 0.25 64 46 18

Microtest

The active compounds were prepared separately as a stock solution with a concentration of 10,000 ppm in dimethyl sulfoxide.

Activity against Alternaria caused by Alternaria solani (Alteso).

The stock solutions were mixed according to the ratio, pipetted into a microtiter plate (MTP) and diluted with water to the indicated concentrations. Then the spore suspension of Alternaria solani was added to an aqueous solution of biosolod or a solution of yeast-bacto peptone-glycerin. The plates were placed in a water-saturated chamber at a temperature of 18 ° C. Using an MPS absorber, it was measured at 405 nm on the 7th day after inoculation.

The measured parameters were compared with the growth of the control compound that does not contain the active compound (100%) and the zero value without fungi and without active compounds in order to determine the relative growth in% of pathogens in the corresponding active compounds.

These percentages are converted to degrees of efficiency.

The expected efficacy levels of the mixtures of the active compounds were determined using the Colby formula [RS Colby, Calculating synergistic and antagonistic responses of herbicide combinations, Weeds 15, 20-22 (1967)] and compared with the observed degrees of effectiveness.

Individual product A

Active compound / active mixture Concentration (frequently, per million) Apparent efficiency 1-1 0.00025 four 1-5 one 49 1-4 0.25 33

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Individual product B

Active compound / active mixture Concentration (part per million) Apparent efficiency Bixaphen 0.001 five Difenoconazole 0.063 five Mepiquat-cl 63 sixteen ProgeksadionSa 63 2 sixteen 2

Active compound / active mixture Concentration (part per million) Apparent efficiency Prothioconazole 0.25 15 Pyraclostrobin 0.016 18

Mixes

Active compound / active mixture Concentration Observable (often, on the effectiveness of a million) Estimated Colby Performance (%) Synergism (%) 1-1 Bixaphen Prothioconazole 0.00025 57 0.001 0.25 23 34 1-5 ProgeksadionSa Mepiquat-C1 1 76 63 63 58 18 1-4 Piraklostrobin Difenokonazol 0.25 65 0.016 0.063 48 17 1-4 Pyraclostrobin ProhexadionSa 0.25 66 0.016 16 46 20 1-4 Bixaphen Prothioconazole 0.25 71 0.001 0.25 46 25 1-4 Bixafen Piraclostrobin 0.25 70 0.001 0.016 48 22

Structures of compounds I

1-1 2- [2-chloro-4- (4-chlorophenoxy) phenyl] -1 - (1,2,4triazol-1 -yl) pent-3-yn-2-ol yr ° gt ^{C |} eleven 1-2 1- [2-chloro-4- (4-chlorophenoxy) phenyl] -1cyclopropyl-2- (1,2,4-triazol-1 -yl) ethanol 1-3 2- [4- (4-chlorophenoxy) -2 (trifluoromethyl) phenyl] -1- (1,2,4-triazol-1yl) propan-2-ol Χτ'τΑ but \ and / I-3a = (R) -I-3 = (R) enantiomer 1-3 dpd but

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1-H2-H2-chloro-4- (4-chlorophenoxy) phenyl] -2cyclopropyl-2-methoxy-ethyl I-1,2,4-triazole

2- | 2-trifluoromethyl-4- (4-chlorophenoxy) phenyl I

-methoxy-3 - (1,2,4-triazol-1 -yl) propan-2-ol

2-G2-chloro-4- (4-chlorophenoxy) phenyl1-3.3 dimethyl-1- (1,2,4-triazol-1-yl) butan-2-ol

1-H2-H2-chloro-4- (4-chlorophenoxy) phenyl 1-2 methoxy-pent-3-ynyl 1-1,2,4-triazole

2-14- (4-chlorophenoxy) -2 (trifluoromethyl) phenyl] -1 - (1,2,4-triazol-1 2-14- (4-chlorophenoxy) -2 (trifluoromethyl) phenyl] -1 - (1 , 2,4-triazol-1 yl) but-3-yn-2-ol

1-G2-14- (4-chlorophenoxy) -2 (trifluoromethyl) phenyl] -2-cyclopropyl-2methoxy-ethyl] -1,2,4-triazole (trifluoromethyl (phenyl I -1 - (1,2,4- triazol-1 yl) butan-2-ol

1-G4- (4-chlorophenoxy) -2 (trifluoromethyl) phenyl] -1 -cyclopropyl-2 (1,2,4-triazol-1 -yl) ethanol (trifluoromethyl) phenyl] -3-methyl-1- (1 , 2,4triazol-1-yl) butan-2-ol

1- | 2- | 4- (4-chlorophenoxy) -2 (trifluoromethyl (phenyl! -2-methoxy-butyl] 1,2,41-Г2-14- (4-chlorophenoxy) -2 (trifluoromethyl) phenyl I- 2-methoxy-propyl I1,2,4-triazole

1- | 2- | 4- (4-chlorophenoxy) -2 (trifluoromethyl) phenyl] -2-methoxy-pent-3inyl] -1,2,4-triazole

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Claims (10)

CLAIM 1. Compositions for combating phytopathogenic fungi containing: 1) as component I, a compound selected from the following compounds I-1, I-3, I-4 and I-5: compound I-1: 2- [2-chloro-4- (4-chlorophenoxy) phenyl] - 1- (1,2,4-triazol-1-yl) pent-3-yn-2-ol; Compound I-3: 2- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -1- (1,2,4-triazol-1-yl) propan-2-ol; Compound I-4: 1- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -1-cyclopropyl-2- (1,2,4-triazol-1-yl) ethanol; Compound I-5: 2- [4- (4-chlorophenoxy) -2- (trifluoromethyl) phenyl] -3-methyl-1 - (1,2,4-triazol-1-yl) butan-2-ol; and 2) as a component II active ingredient selected from the following groups: A) respiratory inhibitors: inhibitors of the complex III in Q _o portion (e.g., strobilurins): azoxystrobin, kumetoksistrobin, kumoksistrobin, dimoxystrobin, enestroburin, fenaminstrobin, fenoksistrobin / flufenoksistrobin, fluoxastrobin, izofetamid, kresoxim-methyl, metominostrobin, orysastrobin, picoxystrobin, pyraclostrobin, pirametostrobin, piraoksistrobin, trifloxystrobin , 2- [2- (2,5-dimethylphenoxymethyl) phenyl] -3-methoxyacrylic acid methyl ester and 2- (2- (3- (2,6 dichlorophenyl) -1-methylallylideneaminooxymethyl) phenyl) -2-methoxyimino-L- methylacetamide, piribencarb, triclop rikarb / hlordinkarb, famoxadone, fenamidone; inhibitors of complex III in the Q _i region: cyazofamide, amisulbrom, [(3B, 6B, 7K, 8K) -8-benzyl-3 - [(3 acetoxy-4-methoxypyridin-2-carbonyl) amino] -6-methyl-4, 9-dioxo-1,5-dioxonan-7-yl] 2methylpropanoate, [(3B, 6B, 7K, 8K) -8-benzyl-3 - [[3- (acetoxymethoxy) -4-methoxypyridin-2carbonyl] amino] - 6-methyl-4,9-dioxo-1,5-dioxonan-7-yl] 2-methylpropanoate, [(3B, 6B, 7K, 8K) -8-benzyl-3 [(3-isobutoxycarbonyloxy-4-methoxypyridine- 2 -carbonyl) amino] -6-methyl-4,9-dioxo-1,5-dioxonan-7 yl] 2-methylpropanoate, [(3B, 6B, 7K, 8K) -8-benzyl-3 - [[3 - (1,3-benzodioxol-5-ylmethoxy) -4-methoxypyridine 2-carbonyl] amino] -6-methyl-4,9-dioxo-1,5-dioksonan -7-yl] 2-methylpropanoate; (3S, 6S, 7R, 8R) -3 - [[(3hydroxy-4-methoxy-2-pyridinyl) carbonyl] amino] -6-methyl-4,9-dioxo-8- (phenylmethyl) -1,5- dioxonan-7yl 2-methylpropanoate; inhibitor complex (eg, carboxamide) 4'trifluoromethylthiobiphenyl-2-yl) -3-difluoromethyl-1-methyl-W-pyrazole-4-carboxamide, N- (2- (1,3,3trimethylbutyl) phenyl) -1,3-dimethyl-5 -fluoro- III-pyrazole-4-carboxamide, 3- (difluoromethyl) -1 -methyl-N (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide, 3- (trifluoromethyl) -1-methyl-Y- (1,1,3-trimethylindan4-yl) peer sol-4-carboxamide, 1,3-dimethyl-Y- (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide, 3 (trifluoromethyl) -1,5-dimethyl-Y- (1,1 , 3-trimethylindan-4-yl) pyrazole-4-carboxamide, 1,3,5-trimethyl-Y (1,1,3-trimethylindan-4-yl) pyrazole-4-carboxamide, N- (7-fluoro- 1,1,3-trimethylindan-4-yl) -1,3 dimethylpyrazole-4-carboxamide, no. [2- (2,4-dichlorophenyl) -2-methoxy-1-methylethyl] -3- (difluoromethyl) -1methyl pyrazole- 4-carboxamide; other respiratory inhibitors (for example, complex I, uncoupling agents): diflumetorim, (5.8 difluoroquinazolin-4-yl) - {2- [2-fluoro-4- (4-trifluoromethylpyridin-2-yloxy) phenyl] ethyl} amine; nitrophenyl derivatives: binapacryl, dinobuton, dinocap, fluazinam; ferimzon; organometallic compounds: fentin salts such as fentin acetate, fentin chloride or fentin hydroxide; ametocradine and silthiofam; B) Sterol biosynthesis inhibitors (IHD fungicides): demineralized antioxidants penconazole, propiconazole, prothioconazole, simeconazole, tebuconazole, tetraconazole, triadimefon, triadimenol, triticonazole, uniconazole, 1- [rel- (2S; 3R) -3- (2-chlorophenyl) -2- (2,4 difluorophenyl) oxyranylmethyl] -thiocyanato-W- [1,2,4] triazole, 2- [rel- (2S; 3R) -3- (2-chlorophen yl) -2- (2,4difluorophenyl) oxiranylmethyl] -2H- [1,2,4] triazol-3-thiol; imidazoles: imazalil, pefurazoat, prochloraz, triflumizol; pyrimidines, pyridines and piperazines: fenarimol, nuarimol, pyrifenox, triforin; 3 (4-chloro-2-fluorophenyl) -5- (2,4-difluorophenyl) isoxazol-4-yl] - (3-pyridyl) methanol; delta-14 reductase inhibitors: aldimorph, dodemorph, dodemorph acetate, fenpropimorph, tridemorph, fenpropidin, piperalin, spiroxamine; 3-ketoreductase inhibitors: fenhexamide; D) inhibitors of cell division and cytoskeleton: tubulin inhibitors such as benzimidazoles, thiophanates: benomyl, carbendazim, fuberidazole, thiabendazole, thiophanate methyl; triazolopyrimidines: 5-chloro-7- (4-methylpiperidin-1-yl) -6- (2,4,6 trifluorophenyl) - [1,2,4] triazolo [1,5-a] pyrimidine; other inhibitors of cell division: diethofencarb, ethaboxam, pencycuron, flupicolide, zoxamide, metrafenone, pyriophenone; - 360 030875 F) signal transduction inhibitors: MAP kinase / histidine kinase inhibitors: fluorimide, iprodione, procymidone, vinclozolin, fludioxonil; G protein inhibitors: quinoxyfen; G) inhibitors of lipid and membrane synthesis: phospholipid biosynthesis inhibitors: edifenphos, iprobenfos, pyrazophos, isoprothiolane; lipid peroxidation: dicloran, quintozene, tecnazen, tolclofos-methyl, biphenyl, chlorineb, etridiazole; phospholipid biosynthesis and cell wall deposition: dimethomorph, flumorph, mandipropamid, pyrimorph, benthiavalicarb, iprovalicarb, valifenalate and N- (1- (1- (4 cyanophenyl) ethanesulfonyl) but-2-yl) carbamine ester 4-fluoromethyl) compounds that damage the permeability of the cell membrane and fatty acids: propamocarb, propamocarb-hydrochloride; fatty acid amide hydrolase inhibitors: oxathiapiproline, 1- [4- [4- [5- (2,6-difluorophenyl) -4,5 dihydro-3-isoxazolyl] -2-thiazolyl] -1-piperidinyl] -2- [5 -methyl-3 - (trifluoromethyl) -Sh-pyrazol-1yl] ethanone, 2- {3- [2- (1 - {[3,5-bis- (difluoromethyl-Sh-pyrazol-1-yl] acetyl) piperidine -4-yl) -1,3-thiazol-4yl] -4,5-dihydro-1,2-oxazol-5-yl} phenylmethanesulfonate, 2- {3- [2- (1 - {[3,5- bis- (difluoromethyl) -Shpirazol-1 -yl] acetyl} piperidin-4-yl) -1,3-thiazol-4-yl] -4,5-dihydro-1,2-oxazol-5 -yl} -3 chlorophenyl methanesulfonate; H) inhibitors with multilateral action: inorganic active ingredients: Bordeaux mixture, copper acetate, copper hydroxide, copper oxychloride, basic copper sulfate, sulfur; thio- and dithiocarbamates: ferbam, mancozeb, maneb, metam, metiram, propineb, thiram, zineb, ziram; organochlorine compounds (such as phthalimides, sulphonamides, hlornitrily): anilazine, chlorothalonil, captafol, captan, folpet, dichlofluanid, dichlorophen, flusulfamide, hexachlorobenzene, pentachlorophenol and its salts, phthalide, tolylfluanid, № (4-chloro-2-nitrophenyl) - Ethyl 4-methylbenzenesulfonamide; guanidines and others: guanidine, dodin, dodine free base, guazatin, guazatin acetate, iminoctadine, iminoctadine triacetate, iminoctadine tris- (albesilate), dithianon, 2,6-dimethyl-1H, 5H [1,4] dithiino [ 2,3-c: 5,6-с '] dipyrrole-1,3,5,7 (2H, 6H) -tetraon; I) inhibitors of cell wall synthesis: inhibitors of glucan synthesis: validamycin, polyoxin B; inhibitors of melanin synthesis: pyroquilone, tricyclazole, carpropamide, dicyclomet, phenoxanil; L) biopesticides; L1) microbiological pesticides with fungicidal, bactericidal, virucidal and / or plant protection activating activities: Ampelomyces quisqualis, Aspergillus flavus, Aureobasidium pullulans, Bacillus amyloliquefaciens, B. mojavensis, B. pumilus, B. simplex, B. lyses, B. bisylis, B. sylix, Hasyloliquefaciens, B. mojavensis, B. plexilus, B. simplex, B. lyses-pacilus, B. mojavensis, B. sylix, B. sylix, p. B. subtilis var. amyloliquefaciens, Candida oleophila, C. saitoana, Clavibacter michiganensis (bacteriophages), Coniothyrium minitans, Cryphonectria parasitica, Cryptococcus albidus, Dilophosphora alopecuri, Fusarium oxysporum, Clonostachys rosea. catenas a anomala, Pythium oligandrum, Sphaerodes mycoparasitica, Streptomyces griseoviridis, S. lydicus, S. violaceusniger, Talaromyces flavus, Trichoderma asperellum, T. atroviride, T. fertile, T. gamsii, T. harmatum, T. harzianum; a mixture of T. harzianum and T. viride; a mixture of T. polysporum and T. harzianum; T. stromaticum, T. virens (also called Gliocladium virens), T. viride, Typhula phacorrhiza, Ulocladium oudemansii, Verticillium dahlia, zucchini yellow mosaic virus (avirulent strain); M) growth regulators: abscopicus , indole-3-acetic acid, maleic acid hydrazide, mefluidide, mepiquat (mexican), naphthalenuacetic acid, N-6-benzyladinine, paklobutrazole, prohexadione (prohexadione-calcium), prohydroxasmon, tidiazuron, trihydrate, proenthene (calcium), prohydroxadione (calcium), prohydroxasmon, tidiazuron , 3,5triiodobenzoic acid, trineksapak-ethyl and uniconazole; O) insecticides: Nicotinic receptor agonists / antagonists: clothianidin, dinotefuran, flupiradifuron, imidacloprid, thiametosam, nitenpyram, acetamiprid, thiaclopride, 1- (2-chloro-thiazol-5-ylmethyl) -2nitrimino-3,5-dimethyl-2-dimethyl-2-chloromethylamine-2-dimethyl-2-dimethyl-2-dimethyl-2-dimethyl-2-dimethyl-2-dimethyl) ] triazine; GABA antagonists: endosulfan, ethiprol, fipronil, vaniliprol, pyrafluprol, pyriprol, 5-amino-1- (2,6-dichloro-4-methylphenyl) -4-sulfinamoyl-3-pyrazole-3-thiocarboxylic acid amide. - 361 030875 2. The composition according to claim 1, in which the weight ratio of component I to component II is from 500: 1 to 1: 500. 3. Compositions according to any one of claims 1, 2, wherein component II is selected from groups A) to I). 4. Compositions according to any one of claims 1 to 3, wherein component II is selected from group O). 5. Compositions according to any one of claims 1 to 4, further containing component III, selected from groups A) to O) according to claim 1. 6. Compositions according to any one of claims 1 to 5, further comprising an agrochemical excipient. 7. Composition according to any one of claims 1 to 6, additionally containing another active ingredient, component III, selected from groups A) to O) according to claim 1. 8. The use of a composition according to any one of claims 1 to 7 to combat phytopathogenic fungi. 9. A method of combating phytopathogenic fungi, including the treatment of fungi or materials to be protected from fungi of materials, plants, soil or seed with an effective amount of a composition according to any one of claims 1 to 7. 10. A seed coated with components I, II or I, II and III of a composition according to any one of claims 17, in an amount of from 0.1 to 10 kg of active substances per 100 kg of seed.